Your search keyword '"Siming Zhang"' showing total 115 results

1. Magnesium-based biomaterials for coordinated tissue repair: A comprehensive overview of design strategies, advantages, and challenges

Author

Yuan Chen, Siming Zhang, Jiaxiang Bai, Yao Yang, Yingjie Wang, Yanling Zhou, Wei Jiang, Junjie Wang, Junchen Zhu, Chen Zhu, and Xianzuo Zhang

Subjects

Magnesium-based biomaterials, Design strategies, Functional properties, Clinical applications, Challenges, Mining engineering. Metallurgy, TN1-997

Abstract

Magnesium-based biomaterials (MBMs) are one of the most promising materials for tissue engineering due to their unique mechanical properties and excellent functional properties. This review describes the development, advantages, and challenges of MBMs for biomedical applications, especially for tissue repair and regeneration. The history of the use of MBMs from the beginning of the 20th century is traced, and the transformative advances in contemporary applications of MBMs in areas such as orthopedics and cardiovascular surgery are emphasized. The review also provides insight into the signaling pathways affected by MBMs, such as the PI3K/Akt and RANKL/RANK/OPG pathways, which are critical for osteogenesis and angiogenesis. The review advocates that future research should focus on optimizing alloy compositions, surface modification and exploring innovative technologies such as 3D printing to improve the efficacy of MBMs in complex tissue repair. The potential of MBMs to tissue engineering and regenerative medicine is significant, urging further exploration and interdisciplinary collaboration to maximize their therapeutic effects.

Published

2024

2. A personalized mRNA signature for predicting hypertrophic cardiomyopathy applying machine learning methods

Author

Jue Gu, Yamin Zhao, Yue Ben, Siming Zhang, Liqi Hua, Songnian He, Ruizi Liu, Xu Chen, and Hongzhuan Sheng

Subjects

HCM, Machine learning, Zebrafish, Prediction, Bioinformatics, Medicine, Science

Abstract

Abstract Hypertrophic cardiomyopathy (HCM) may lead to cardiac dysfunction and sudden death. This study was designed to develop a HCM signature applying bioinformatics and machine learning methods. Data of HCM and normal tissues were obtained from public databases to screen differentially expressed genes (DEGs) using the R software limma package. The Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) were performed for enrichment analysis of HCM-associated DEGs. Hub genes for HCM were determined using weighted gene co-expression network analysis (WGCNA) together with two machine learning algorithms (SVM-RFE and LASSO). Finally, we introduced a zebrafish model to simulate changes in the hub genes in the HCM and to observe their effects on cardiac disease development. The mRNA expression data from a total of 106 HCM tissues and 39 normal samples were collected and we screened 157 DEGs. Enrichment analysis showed that immune pathways played an important role in the pathogenesis of HCM. Three hub genes (FCN3, MYH6 and RASD1) were identified using WGCNA, SVM-RFE, and LASSO analysis. In a zebrafish model, knockdown of MYH6 and RASD1 resulted in cardiac malformations with reduced ventricular capacity and heart rate, which validated the clinical significance of these genes in the diagnosis of HCM. Based on machine learning algorithms, our study created a signature with potential impact on cardiac function and cardiac quality index for HCM. The current findings had important implications for the early diagnosis and treatment of HCM.

Published

2024

3. Global research trends on the links between prostate cancer and erectile dysfunction between 2003 and 2023: A bibliometrics and visualized study

Author

Songnian He, Siming Zhang, Xinyang Sun, Ruizi Liu, Tianyi Yuan, Xu Chen, and Xu Zhang

Subjects

Prostate cancer, Erectile dysfunction, Bibliometrics, VOSviewer, CiteSpace, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: The incidence of prostate cancer (PC) has increased in recent years. Erectile dysfunction (ED) after prostate cancer treatment has aroused extensive attention. Bibliometric analysis was designed to investigate a systematic understanding of developments between PC and ED during the past 20 years. Methods: Literatures on PC and ED were retrieved from the Web of Science Core Collection database (WoSCC). By using the VOS viewer and CiteSpace software to analysis the metrics of bibliometric literature, such as number of articles, journals, countries, institutions, authors, keywords and associated information. The number of publications per year was statistically analysed and plotted thorough Microsoft Office. In addition, Pajek software was used to adjust the visual map. Results: A total of 2332 screened articles were included in the analysis. The Journal of Sexual Medicine, ranking first among the analysed journals, published 235 articles. The United States and Canada were leaders in PC and ED research. There is a need to strengthen inter-agency cooperation in this area of research on a global scale. Mulhall JP, as the most prolific author in this area of research, published 80 articles. And Rosen RC was the author with the most co-citated (693 co-citated). The main research focus on the prevention, treatment and management of ED after PC treatment in this field through the keyword analysis. Conclusions: Research on PC and ED is expected to expand further worldwide. We found ED, as new sustainable treatment modalities, scientific postoperative management and psychological interventions for patients, may become the research hotspots and should be closely concerned in this study.

Published

2024

4. Developing a prognosis and chemotherapy evaluating model for colon adenocarcinoma based on mitotic catastrophe-related genes

Author

Yinglei Liu, Yamin Zhao, Siming Zhang, Shen Rong, Songnian He, Liqi Hua, Xingdan Wang, and Hongjian Chen

Subjects

Medicine, Science

Abstract

Abstract Mitotic catastrophe (MC) is a novel form of cell death that plays an important role in the treatment and drug resistance of colon adenocarcinoma (COAD). However, MC related genes in COAD treatment and prognosis evaluation are rarely studied. In this study, the transcriptome data, somatic mutation and copy number variation data were obtained from The Cancer Genome Atlas (TCGA) database. The mitotic catastrophe related genes (MCRGs) were obtained from GENCARDS website. Differential gene analysis was conducted with LIMMA package. Univariate Cox regression analysis was used to identify prognostic related genes. Mutation analysis was performed and displayed by maftools package. RCircos package was used for localizing the position of genes on chromosomes. “Glmnet” R package was applied for constructing a risk model via the LASSO regression method. Consensus clustering analyses was implemented for clustering different subtypes. Functional enrichment analysis through Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) methods, immune infiltration analysis via single sample gene set enrichment analysis (ssGSEA), tumor mutation burden and drug sensitivity analysis by pRRophetic R package were also carried out for risk model or molecular subtype’s assessment. Additionally, the connections between the expression of hub genes and overall survival (OS) were obtained from online Human Protein Atlas (HPA) website. Real-Time Quantitative Polymerase Chain Reaction (RT‑qPCR) further validated the expression of hub genes. A total of 207 differentially expressed MCRGs were selected in the TCGA cohort, 23 of which were significantly associated with OS in COAD patients. Subsequently, we constructed risk score prognostic models with 5 hub MCRGs, including SYCE2, SERPINE1, TRIP6, LIMK1, and EEPD1. The high-risk patients suffered from poorer prognosis. Furthermore, we developed a nomogram that gathered age, sex, staging, and risk score to accurately forecast the clinical survival outcomes in 1, 3, and 5 years. The results of functional enrichment suggested a significant correlation between MCRGs characteristics and cancer progression, with important implications for the immune microenvironment. Moreover, patients who displayed high TMB and high risk score showed worse prognosis, and risk characteristics were associated with different chemotherapeutic agents. Finally, RT‑qPCR verified the increased expression of the five MCRGs in clinical samples. The five MCRGs in the prognostic signature were associated with prognosis, and could be treated as reliable prognostic biomarkers and therapeutic targets for COAD patients with distinct clinicopathological characteristics, thereby providing a foundation for the precise application of pertinent drugs in COAD patients.

Published

2024

5. A pan-cancer analysis of anti-proliferative protein family genes for therapeutic targets in cancer

Author

Siming Zhang, Jue Gu, Ling-ling Shi, Bo Qian, Xun Diao, Xiaohui Jiang, Jindong Wu, Zhijun Wu, and Aiguo Shen

Subjects

Medicine, Science

Abstract

Abstract The recently discovered APRO (anti-proliferative protein) family encodes a group of trans-membrane glycoproteins and includes 6 members: TOB1, TOB2, BTG1, BTG2, BTG3 and BTG4. The APRO family is reportedly associated with the initiation and progression of cancers. This study aims to undertake a comprehensive investigation of the APRO family of proteins as a prognostic biomarker in various human tumors. We performed a pan-cancer analysis of the APRO family based on The Cancer Genome Atlas (TCGA). With the bioinformatics methods, we explored the prognostic value of the APRO family and the correlation between APRO family expression and tumor mutation burden (TMB), microsatellite instability (MSI), drug sensitivity, and immunotherapy in numerous cancers. Our results show that the APRO family was primarily down-regulated in cancer samples. The expression of APRO family members was linked with patient prognosis. In addition, APRO family genes showed significant association with immune infiltrate subtypes, tumor microenvironment, and tumor cell stemness. Finally, our study also demonstrated the relationship between APRO family genes and drug sensitivity. This study provides comprehensive information to understand the APRO family’s role as an oncogene and predictor of survival in some tumor types.

Published

2023

6. Bacterial lipopolysaccharide related genes signature as potential biomarker for prognosis and immune treatment in gastric cancer

Author

Tianyi Yuan, Siming Zhang, Songnian He, Yijie Ma, Jianhong Chen, and Jue Gu

Subjects

Medicine, Science

Abstract

Abstract The composition of microbial microenvironment is an important factor affecting the development of tumor diseases. However, due to the limitations of current technological levels, we are still unable to fully study and elucidate the depth and breadth of the impact of microorganisms on tumors, especially whether microorganisms have an impact on cancer. Therefore, the purpose of this study is to conduct in-depth research on the role and mechanism of prostate microbiome in gastric cancer (GC) based on the related genes of bacterial lipopolysaccharide (LPS) by using bioinformatics methods. Through comparison in the Toxin Genomics Database (CTD), we can find and screen out the bacterial LPS related genes. In the study, Venn plots and lasso analysis were used to obtain differentially expressed LPS related hub genes (LRHG). Afterwards, in order to establish a prognostic risk score model and column chart in LRHG features, we used univariate and multivariate Cox regression analysis for modeling and composition. In addition, we also conducted in-depth research on the clinical role of immunotherapy with TMB, MSI, KRAS mutants, and TIDE scores. We screened 9 LRHGs in the database. We constructed a prognostic risk score and column chart based on LRHG, indicating that low risk scores have a protective effect on patients. We particularly found that low risk scores are beneficial for immunotherapy through TIDE score evaluation. Based on LPS related hub genes, we established a LRHG signature, which can help predict immunotherapy and prognosis for GC patients. Bacterial lipopolysaccharide related genes can also be biomarkers to predict progression free survival in GC patients.

Published

2023

7. GLIPR2: a potential biomarker and therapeutic target unveiled – Insights from extensive pan-cancer analyses, with a spotlight on lung adenocarcinoma

Author

Wei Lin, Siming Zhang, Chunyan Gu, Haixia Zhu, and Yuan Liu

Subjects

pan-cancer analysis, GLIPR2, LUAD, tumor suppressor, immune infiltration, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundGlioma pathogenesis related-2 (GLIPR2), an emerging Golgi membrane protein implicated in autophagy, has received limited attention in current scholarly discourse.MethodsLeveraging extensive datasets, including The Cancer Genome Atlas (TCGA), Genotype Tissue Expression (GTEx), Human Protein Atlas (HPA), and Clinical Proteomic Tumor Analysis Consortium (CPTAC), we conducted a comprehensive investigation into GLIPR2 expression across diverse human malignancies. Utilizing UALCAN, OncoDB, MEXPRESS and cBioPortal databases, we scrutinized GLIPR2 mutation patterns and methylation landscapes. The integration of bulk and single-cell RNA sequencing facilitated elucidation of relationships among cellular heterogeneity, immune infiltration, and GLIPR2 levels in pan-cancer. Employing ROC and KM analyses, we unveiled the diagnostic and prognostic potential of GLIPR2 across diverse cancers. Immunohistochemistry provided insights into GLIPR2 expression patterns in a multicenter cohort spanning various cancer types. In vitro functional experiments, including transwell assays, wound healing analyses, and drug sensitivity testing, were employed to delineate the tumor suppressive role of GLIPR2.ResultsGLIPR2 expression was significantly reduced in neoplastic tissues compared to its prevalence in healthy tissues. Copy number variations (CNV) and alterations in methylation patterns exhibited discernible correlations with GLIPR2 expression within tumor tissues. Moreover, GLIPR2 demonstrated diagnostic and prognostic implications, showing pronounced associations with the expression profiles of numerous immune checkpoint genes and the relative abundance of immune cells in the neoplastic microenvironment. This multifaceted influence was evident across various cancer types, with lung adenocarcinoma (LUAD) being particularly prominent. Notably, patients with LUAD exhibited a significant decrease in GLIPR2 expression within practical clinical settings. Elevated GLIPR2 expression correlated with improved prognostic outcomes specifically in LUAD. Following radiotherapy, LUAD cases displayed an increased presence of GLIPR2+ infiltrating cellular constituents, indicating a notable correlation with heightened sensitivity to radiation-induced therapeutic modalities. A battery of experiments validated the functional role of GLIPR2 in suppressing the malignant phenotype and enhancing treatment sensitivity.ConclusionIn pan-cancer, particularly in LUAD, GLIPR2 emerges as a promising novel biomarker and tumor suppressor. Its involvement in immune cell infiltration suggests potential as an immunotherapeutic target.

Published

2024

8. Association between dietary trace minerals and pelvic inflammatory disease: data from the 2015–2018 National Health and Nutrition Examination Surveys

Author

Panwei Hu, Siming Zhang, Haoyuan Li, Xiaotong Yan, Xiaole Zhang, and Qinhua Zhang

Subjects

pelvic inflammatory disease, dietary trace minerals, dietary copper intake, National Health and Nutrition Examination Survey, cross-sectional study, Nutrition. Foods and food supply, TX341-641

Abstract

ObjectivePelvic inflammatory disease (PID) is a prevalent gynecological disorder. Dietary trace minerals play an important role in combating many chronic diseases including PID. However, it is unknown whether dietary trace minerals and PID are related. This study aimed to examine the relationship between dietary trace minerals (copper, iron, selenium, and zinc) and PID.MethodsData of women participants from the National Health and Nutrition Examination Survey (NHANES) 2015–2018 were enrolled in this cross-sectional investigation. Univariate and multivariate linear regression analyses of the relationship between dietary trace minerals and PID were performed, and restricted cubic spline (RCS) analyses were applied to visualize those relationships.ResultsIn total, 2,694 women between the ages of 20 and 59 years participated in the two NHANES cycles. In the univariate analyses, a significant negative relationship was identified between PID and dietary copper intake [odds ratio (OR) = 0.40, 95% confidence interval (CI): 0.24–0.67, p

Published

2023

9. Immunomodulatory biomaterials for implant-associated infections: from conventional to advanced therapeutic strategies

Author

Jiale Dong, Wenzhi Wang, Wei Zhou, Siming Zhang, Meng Li, Ning Li, Guoqing Pan, Xianzuo Zhang, Jiaxiang Bai, and Chen Zhu

Subjects

Implant-associated infections, Immune modulation, Biomaterials, Antibacterial therapeutic strategies, Medical technology, R855-855.5

Abstract

Abstract Implant-associated infection (IAI) is increasingly emerging as a serious threat with the massive application of biomaterials. Bacteria attached to the surface of implants are often difficult to remove and exhibit high resistance to bactericides. In the quest for novel antimicrobial strategies, conventional antimicrobial materials often fail to exert their function because they tend to focus on direct bactericidal activity while neglecting the modulation of immune systems. The inflammatory response induced by host immune cells was thought to be a detrimental force impeding wound healing. However, the immune system has recently received increasing attention as a vital player in the host’s defense against infection. Anti-infective strategies based on the modulation of host immune defenses are emerging as a field of interest. This review explains the importance of the immune system in combating infections and describes current advanced immune-enhanced anti-infection strategies. First, the characteristics of traditional/conventional implant biomaterials and the reasons for the difficulty of bacterial clearance in IAI were reviewed. Second, the importance of immune cells in the battle against bacteria is elucidated. Then, we discuss how to design biomaterials that activate the defense function of immune cells to enhance the antimicrobial potential. Based on the key premise of restoring proper host-protective immunity, varying advanced immune-enhanced antimicrobial strategies were discussed. Finally, current issues and perspectives in this field were offered. This review will provide scientific guidance to enhance the development of advanced anti-infective biomaterials.

Published

2022

10. Author Correction: Developing a prognosis and chemotherapy evaluating model for colon adenocarcinoma based on mitotic catastrophe-related genes

Author

Yinglei Liu, Yamin Zhao, Siming Zhang, Shen Rong, Songnian He, Liqi Hua, Xingdan Wang, and Hongjian Chen

Subjects

Medicine, Science

Published

2024

11. Recent advances in responsive hydrogels for diabetic wound healing

Author

Siming Zhang, Gaoran Ge, Yi Qin, Wenhao Li, Jiale Dong, Jiawei Mei, Ruixiang Ma, Xianzuo Zhang, Jiaxiang Bai, Chen Zhu, Weiwei Zhang, and Dechun Geng

Subjects

Diabetic wound, Biomaterials, Skin tissue engineering, Hydrogel, Smart responsiveness, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Poor wound healing after diabetes mellitus remains a challenging problem, and its pathophysiological mechanisms have not yet been fully elucidated. Persistent bleeding, disturbed regulation of inflammation, blocked cell proliferation, susceptible infection and impaired tissue remodeling are the main features of diabetic wound healing. Conventional wound dressings, including gauze, films and bandages, have a limited function. They generally act as physical barriers and absorbers of exudates, which fail to meet the requirements of the whol diabetic wound healing process. Wounds in diabetic patients typically heal slowly and are susceptible to infection due to hyperglycemia within the wound bed. Once bacterial cells develop into biofilms, diabetic wounds will exhibit robust drug resistance. Recently, the application of stimuli-responsive hydrogels, also known as “smart hydrogels”, for diabetic wound healing has attracted particular attention. The basic feature of this system is its capacities to change mechanical properties, swelling ability, hydrophilicity, permeability of biologically active molecules, etc., in response to various stimuli, including temperature, potential of hydrogen (pH), protease and other biological factors. Smart hydrogels can improve therapeutic efficacy and limit total toxicity according to the characteristics of diabetic wounds. In this review, we summarized the mechanism and application of stimuli-responsive hydrogels for diabetic wound healing. It is hoped that this work will provide some inspiration and suggestions for research in this field.

Published

2023

12. Conversion of a Fused or Ankylosed Hip to Total Hip Arthroplasty: Is the Direct Anterior Approach in the Lateral Decubitus Position an Ideal Solution?

Author

Jiale Dong, Lingtong Kong, Siming Zhang, Xifu Shang, Jiaxing Wang, Xianzuo Zhang, and Chen Zhu

Subjects

total hip arthroplasty, posterolateral approach, direct anterior approach, hip fusion, ankylosed hip, Surgery, RD1-811

Abstract

BackgroundTotal hip arthroplasty (THA) using the direct anterior approach (DAA) is becoming increasingly popular due to its potential benefits over the posterolateral approach (PLA). However, few studies have compared the efficacies of these two surgical approaches in hip fusion treatment. This study compared early clinical direct anterior and posterolateral THA outcomes in hip fusion treatment.MethodsHere, 127 hips (65 DAA, 62 PLA) were retrospectively evaluated. Early postoperative functional outcomes of DAA and PLA groups were assessed using Harris score and Oxford Hip Score (OHS) and standard anteroposterior hip radiographs. Surgical characteristics, perioperative results, and complications within 6 months postoperatively were recorded.ResultsThough baseline values were similar, Harris and OHS scores were better in the DAA group than in the PLA group at 1 and 3 months postoperatively. The average cup anteversion angle was significantly greater in the DAA group than in the PLA group (12.7° vs. 11.1°). More hips undergoing DAA were successfully orientated in both inclination and anteversion angles (46 vs. 32). Early postoperative hip function predictors were preoperative fused hip position, surgical approach, and range of motion. DAA was associated with reduced postoperative blood loss and shorter hospital stays. Furthermore, 14 vs. 8 complications occurred in the DAA vs. PLA group. Lateral femoral cutaneous nerve injuries were observed in eight hips (12.3%) of the DAA group.ConclusionFor fused or ankylosed hips, THA using DAA in the lateral decubitus position may result in excellent prosthesis positioning and faster postoperative recovery throughout early follow-up vs. PLA.

Published

2022

13. Preclinical Toxicity and Immunogenicity of a COVID-19 Vaccine (ZF2001) in Cynomolgus Monkeys

Author

Hongzhong Yang, Wei Pan, Guoyu Chen, Enqi Huang, Qijiong Lu, Yunxiang Chen, Ying Chen, Zhengbiao Yang, Lei Wen, Siming Zhang, Cong Xu, Wanqiang Lv, Lianpan Dai, Changwei Wu, and Lijiang Zhang

Subjects

COVID-19, ZF2001 vaccine, safety evaluation, immunogenicity, cynomolgus monkey, Medicine

Abstract

Although the new coronavirus disease 2019 (COVID-19) outbreak occurred in late 2019, it is still endemic worldwide, and has become a global public health problem. Vaccination against SARS-CoV-2 is considered to be the most effective intervention to prevent the spread of COVID-19. ZF2001 is a recombinant protein vaccine based on SARS-CoV-2 receptor-binding domain (RBD) subunit which contains aluminum adjuvant. In order to advance our research on ZF2001 into clinical trial, we investigated the general toxicity and immunogenicity of ZF2001 in cynomolgus monkeys and assessed the possible target organs for vaccine-induced toxicity. In the present research, we observed no significant systemic toxicities and abnormal cardiovascular and respiratory events following four times injections of intramuscular ZF2001 in cynomolgus monkeys. Histological examination revealed recoverable inflammatory changes in quadricep muscle and adjacent lymph node at the vaccine injection site. As expected, the vaccine can produce a strongly specific binding antibody and neutralizing antibodies in cynomolgus monkeys after inoculation. Taken together, our regulatory toxicology research proves the safety and immunogenicity of the ZF2001 vaccine, supporting its entry into large scale clinical trials.

Published

2022

14. Dendritic defect-rich palladium–copper–cobalt nanoalloys as robust multifunctional non-platinum electrocatalysts for fuel cells

Author

Chaozhong Li, Qiang Yuan, Bing Ni, Ting He, Siming Zhang, Yong Long, Lin Gu, and Xun Wang

Subjects

Science

Abstract

Fuel cells are promising for sustainable energy generation, but are limited by the performance of electrocatalysts. Here the authors synthesize dendritic palladium–copper–cobalt nanoalloys with electrocatalytic activity for oxygen reduction and formic acid oxidation as well as alcohol tolerance.

Published

2018

15. Is mmWave Ready for Cellular Deployment?

Author

Siming Zhang, Guizhen Wang, and Chih-Lin I

Subjects

mmWave, channel measurement, sounder architecture, channel model, new PHY design, industrial readiness, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The wireless capacity crunch will undoubtedly continue as new innovative applications emerge, for instance, augmented reality and massive machine type communications. mmWave promises to deliver gigabits of bandwidth and unprecedented wireless capacity and has created quite the social buzz in both industry and academia. However, mmWave does come with its challenges. Some most prominent issues include high propagation loss, device immaturity, signal processing complexity, and testability. This paper aims to review the current progress on the development of the mmWave technology from seven areas of particular interest/myths with a particular focus on deployment feasibility. We also promote sensible discussions on the potential solutions. Finally, we ask the title question from a network operator's perspective.

Published

2017

16. Water Transport in Unsaturated Cracked Concrete under Pressure

Author

Yuanzhu Zhang, Siming Zhang, Gang Wei, Xinjiang Wei, Liqiao Jin, and Kuixin Xu

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

In order to analyze the process of hydraulic water infiltrating cracked concrete of underwater tunnels, the equation of water transport in unsaturated cracked concrete under pressure was proposed according to the double-porosity medium model. Penetration tests on prefabricated cracked concrete blocks were conducted, and then the influence of hydraulic pressure, initial saturation, and crack width on water transport was studied. The results show that the larger the water pressure, the lower the initial saturation, and the wider the crack width, then the greater the penetration depth, which can be reasonably explained according to water motion theoretical models in this study. Moreover, the TOUGH2 software was used to simulate the change and distribution of saturation, driving potential, and water velocity of unsaturated cracked concrete, which further proved the experimental results and theoretical analysis. It reflects that both pressure potential and matric potential are the driving force of water transport in underwater cracked concrete, and the driving force will be converted with the change of concrete saturation. In addition, crack width is positively correlated with concrete permeability.

Published

2019

17. Deep Surveying of the Transcriptional and Alternative Splicing Signatures for Decidual CD8+ T Cells at the First Trimester of Human Healthy Pregnancy

Author

Weihong Zeng, Xinmei Liu, Zhicui Liu, Ying Zheng, Tiantian Yu, Shaliu Fu, Xiao Li, Jing Zhang, Siming Zhang, Xiaoling Ma, Xiao-Rui Liu, Xiaoli Qin, Asma Khanniche, Yan Zhang, Fuju Tian, and Yi Lin

Subjects

human decidual CD8+ T cells, early healthy pregnancy, transcriptome and alternative splicing, high-throughput mRNA sequencing, functional feature, Immunologic diseases. Allergy, RC581-607

Abstract

Decidual CD8+ (dCD8) T cells have been proposed to play important roles in immune protection against the invading pathogens and in tolerance toward the growing semi-allogeneic fetus during early pregnancy. However, their phenotypic and functional characteristics remain poorly defined. Here, we performed the first analysis of the transcriptional and alternative splicing (AS) signatures for human first-trimester dCD8 T cells using high-throughput mRNA sequencing. Our data revealed that dCD8 T cells have distinct transcriptional and AS landscapes when compared with their autologous peripheral blood CD8+ (pCD8) T counterparts. Furthermore, human dCD8 T cells were observed to contain CD8-Treg and effector-memory T-cell subsets, and display enhanced functionality in terms of degranulation and cytokine production on a per-cell basis. Additionally, we have identified the novel splice junctions that use a high ratio of the non-canonical splicing motif GC-AG and found that AS is not a major contributor to the gene expression-level changes between paired pCD8 and dCD8 T cells. Together, our findings not only provide a comprehensive framework of the transcriptional and AS landscapes but also reveal the functional feature of human dCD8 T cells, which are of great importance in understanding the biology of these cells and the physiology of human healthy pregnancy.

Published

2018

18. Mechanism of bidirectional thermotaxis in Escherichia coli

Author

Anja Paulick, Vladimir Jakovljevic, SiMing Zhang, Michael Erickstad, Alex Groisman, Yigal Meir, William S Ryu, Ned S Wingreen, and Victor Sourjik

Subjects

chemotaxis, thermotaxis, bacterial motility, environmental sensing, signal transduction, temperature, Medicine, Science, Biology (General), QH301-705.5

Abstract

In bacteria various tactic responses are mediated by the same cellular pathway, but sensing of physical stimuli remains poorly understood. Here, we combine an in-vivo analysis of the pathway activity with a microfluidic taxis assay and mathematical modeling to investigate the thermotactic response of Escherichia coli. We show that in the absence of chemical attractants E. coli exhibits a steady thermophilic response, the magnitude of which decreases at higher temperatures. Adaptation of wild-type cells to high levels of chemoattractants sensed by only one of the major chemoreceptors leads to inversion of the thermotactic response at intermediate temperatures and bidirectional cell accumulation in a thermal gradient. A mathematical model can explain this behavior based on the saturation-dependent kinetics of adaptive receptor methylation. Lastly, we find that the preferred accumulation temperature corresponds to optimal growth in the presence of the chemoattractant serine, pointing to a physiological relevance of the observed thermotactic behavior.

Published

2017

19. Distinct Transcriptional and Alternative Splicing Signatures of Decidual CD4+ T Cells in Early Human Pregnancy

Author

Weihong Zeng, Zhicui Liu, Xinmei Liu, Siming Zhang, Asma Khanniche, Ying Zheng, Xiaoling Ma, Tiantian Yu, Fuju Tian, Xiao-Rui Liu, Jianxia Fan, and Yi Lin

Subjects

decidual CD4+ T cells, early human pregnancy, transcriptome, alternative splicing, high-throughput mRNA sequencing, Immunologic diseases. Allergy, RC581-607

Abstract

Decidual CD4+ T (dCD4 T) cells are crucial for the maternal-fetal immune tolerance required for a healthy pregnancy outcome. However, their molecular and functional characteristics are not well elucidated. In this study, we performed the first analysis of transcriptional and alternative splicing (AS) landscapes for paired decidual and peripheral blood CD4+ T (pCD4 T) cells in human early pregnancy using high throughput mRNA sequencing. Our data showed that dCD4 T cells are endowed with a unique transcriptional signature when compared to pCD4 T cells: dCD4 T cells upregulate 1,695 genes enriched in immune system process whereas downregulate 1,011 genes mainly related to mRNA catabolic process and the ribosome. Moreover, dCD4 T cells were observed to be at M phase, and show increased activation, proliferation, and cytokine production, as well as display an effector-memory phenotype and a heterogenous nature containing Th1, Th17, and Treg cell subsets. However, dCD4 T cells undergo a comparable number of upregulated and downregulated AS events, both of which are enriched in the genes related to cellular metabolic process. And the changes at the AS event level do not reflect measurable differences at the gene expression level in dCD4 T cells. Collectively, our findings provide a comprehensive portrait of the unique transcriptional signature and AS profile of CD4+ T cells in human decidua and help us gain more understanding of the functional characteristic of these cells during early pregnancy.

Published

2017

20. Correction: CD36 Participates in PrP-Induced Activation of Microglia.

Author

Mohammed Kouadir, Lifeng Yang, Rongrong Tan, Fushan Shi, Yun Lu, Siming Zhang, Xiaomin Yin, Xiangmei Zhou, and Deming Zhao

Subjects

Medicine, Science

Published

2012

21. CD36 participates in PrP(106-126)-induced activation of microglia.

Author

Mohammed Kouadir, Lifeng Yang, Rongrong Tan, Fushan Shi, Yun Lu, Siming Zhang, Xiaomin Yin, Xiangmei Zhou, and Deming Zhao

Subjects

Medicine, Science

Abstract

Microglial activation is a characteristic feature of the pathogenesis of prion diseases. The molecular mechanisms that underlie prion-induced microglial activation are not very well understood. In the present study, we investigated the role of the class B scavenger receptor CD36 in microglial activation induced by neurotoxic prion protein (PrP) fragment 106-126 (PrP(106-126)). We first examined the time course of CD36 mRNA expression upon exposure to PrP(106-126) in BV2 microglia. We then analyzed different parameters of microglial activation in PrP(106-126)-treated cells in the presence or not of anti-CD36 monoclonal antibody (mAb). The cells were first incubated for 1 h with CD36 monoclonal antibody to block the CD36 receptor, and were then treated with neurotoxic prion peptides PrP(106-126). The results showed that PrP(106-126) treatment led to a rapid yet transitory increase in the mRNA expression of CD36, upregulated mRNA and protein levels of proinflammatory cytokines (IL-1β, IL-6 and TNF-α), increased iNOS expression and nitric oxide (NO) production, stimulated the activation of NF-κB and caspase-1, and elevated Fyn activity. The blockade of CD36 had no effect on PrP(106-126)-stimulated NF-κB activation and TNF-α protein release, abrogated the PrP(106-126)-induced iNOS stimulation, downregulated IL-1β and IL-6 expression at both mRNA and protein levels as well as TNF-α mRNA expression, decreased NO production and Fyn phosphorylation, reduced caspase-1 cleavage induced by moderate PrP(106-126)-treatment, but had no effect on caspase-1 activation after treatment with a high concentration of PrP(106-126). Together, these results suggest that CD36 is involved in PrP(106-126)-induced microglial activation and that the participation of CD36 in the interaction between PrP(106-126) and microglia may be mediated by Src tyrosine kinases. Our findings provide new insights into the mechanisms underlying the activation of microglia by neurotoxic prion peptides and open perspectives for new therapeutic strategies for prion diseases by modulation of CD36 signaling.

Published

2012

22. Degree Satisfaction of Graduated International Graduate Students from Private Faith-Based Universities: A Mixed-Methods Analysis of International Students' Concerns

Author

Siming Zhang

Abstract

The purpose of this study was to investigate the satisfaction of international graduate students at private, religion-based universities. The study was conducted with international graduate students at three private, religious-based universities in the Midwest. An explanatory sequential mixed-method design was utilized and data were collected via a survey and interviews. The data described the academic and social needs of international graduate students, including during study times. Additionally, the study explored the specific assistance that private, faith-based universities provide to international students and explore the potential of such courses to improve students' sense of belonging and social support on private, faith-based campuses. Universities can use the results of this study as a basis to improve the setting of transition courses for international students. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published

2023

23. Occurrence of grapevine leafroll-associated virus complex in Napa Valley.

Author

Abhineet M Sharma, Jinbo Wang, Siobain Duffy, Siming Zhang, Michelle K Wong, Arash Rashed, Monica L Cooper, Kent M Daane, and Rodrigo P P Almeida

Subjects

Medicine, Science

Abstract

Grapevine leafroll disease (GLD) is caused by a complex of several virus species (grapevine leafroll-associated viruses, GLRaV) in the family Closteroviridae. Because of its increasing importance, it is critical to determine which species of GLRaV is predominant in each region where this disease is occurring. A structured sampling design, utilizing a combination of RT-PCR based testing and sequencing methods, was used to survey GLRaVs in Napa Valley (California, USA) vineyards (n = 36). Of the 216 samples tested for GLRaV-1, -2, -3, -4, -5, and -9, 62% (n = 134) were GLRaV positive. Of the positives, 81% (n = 109) were single infections with GLRaV-3, followed by GLRaV-2 (4%, n = 5), while the remaining samples (15%, n = 20) were mixed infections of GLRaV-3 with GLRaV-1, 2, 4, or 9. Additionally, 468 samples were tested for genetic variants of GLRaV-3, and of the 65% (n = 306) of samples positive for GLRaV-3, 22% were infected with multiple GLRaV-3 variants. Phylogenetic analysis utilizing sequence data from the single infection GLRaV-3 samples produced seven well-supported GLRaV-3 variants, of which three represented 71% of all GLRaV-3 positive samples in Napa Valley. Furthermore, two novel variants, which grouped with a divergent isolate from New Zealand (NZ-1), were identified, and these variants comprised 6% of all positive GLRaV-3 samples. Spatial analyses showed that GLRaV-3a, 3b, and 3c were not homogeneously distributed across Napa Valley. Overall, 86% of all blocks (n = 31) were positive for GLRaVs and 90% of positive blocks (n = 28) had two or more GLRaV-3 variants, suggesting complex disease dynamics that might include multiple insect-mediated introduction events.

Published

2011

24. Deficiency of Kif15 gene inhibits tumor growth due to host CD8+T lymphocytes increase

Author

Siming Zhang, Qifeng Tu, Xiaowei Qian, Junpei Wang, Chao Ma, Liu Yang, Yan Liu, Ronghua Wu, and Mei Liu

Subjects

Biophysics, Cell Biology, Molecular Biology, Biochemistry

Published

2023

25. Unlocking Massive MIMO Downlink Capacity in City-Wide 5G Deployments.

Author

Siming Zhang, Angela Doufexi, and Andrew R. Nix

Published

2017

26. Alertness Estimation Using Connection Parameters of the Brain Network

Author

Mei Wang, Chen Ma, Siming Zhang, Zhanli Li, and Yuancheng Li

Subjects

Mean squared error, business.industry, Computer science, Mechanical Engineering, Stability (learning theory), Wavelet transform, Pattern recognition, Blind signal separation, Hilbert–Huang transform, Computer Science Applications, Support vector machine, Alertness, Automotive Engineering, Reinforcement learning, Artificial intelligence, business

Abstract

Alertness mechanism of unmanned monitoring vehicles to environment is important. Especially, the vigilance modeling of underground security robots has a particularly significance because the underground is a dangerous environment. However, there is no a mature methodology for the alertness computation. In this work, four parts of the alertness estimation are focused. First, an autonomous robot alertness mechanism framework is proposed by using the deep reinforcement learning model of the human alertness mechanism. Second, a fast K-T filtering algorithm is developed to eliminate the multiple noises of the electroencephalograph (EEG) signals by the blind source separation and the adjustable Q factor wavelet transform. Third, the description problem of the directed interaction stability of the cortical EEG signals is solved by the ensemble empirical mode decomposition and the directional transfer function. Fourth, the human alertness estimation is explored by using the support vector regression of the dynamically spatial-temporal brain network connection parameters. Experiments show that, the mean square error and the determination coefficient of the explored alertness estimation are respectively 0.115 and 0.8337. Compared with the scalp EEG alertness estimation, it has a better performance because the mean square error is decreased by 0.0684, and the determination coefficient is increased by 0.023.

Published

2022

27. Massive MIMO real-time channel measurements and theoretic TDD downlink throughput predictions.

Author

Siming Zhang, Paul Harris 0001, Angela Doufexi, Andrew R. Nix, and Mark A. Beach

Published

2016

28. Serving 22 Users in Real-Time with a 128-Antenna Massive MIMO Testbed.

Author

Paul Harris 0001, Wael Boukley Hassan, Steffen Malkowsky, Joao Vieira, Siming Zhang, Mark A. Beach, Liang Liu 0002, Evangelos Mellios, Andrew R. Nix, Simon Armour, Angela Doufexi, Karl Nieman, and Nikhil Kundargi

Published

2016

29. LOS Throughput Measurements in Real-Time with a 128-Antenna Massive MIMO Testbed.

Author

Paul Harris 0001, Siming Zhang, Mark A. Beach, Evangelos Mellios, Andrew R. Nix, Simon Armour, Angela Doufexi, Karl Nieman, and Nikhil Kundargi

Published

2016

30. Evaluating realistic performance gains of massive multi-user MIMO system in urban city deployments.

Author

Siming Zhang, Angela Doufexi, and Andrew R. Nix

Published

2016

31. Time-domain sounder validation and reflectivity measurements for mm-Wave applications.

Author

Angelos A. Goulianos, Thomas H. Barratt, Wenfang Yuan, Siming Zhang, Mark A. Beach, Andrew R. Nix, Evangelos Mellios, Peter Cain, Moray Rumney, and Tim Masson

Published

2016

32. Comparing Theoretic Single-User and Multi-User Full-Dimension MIMO Data Throughputs in Realistic City-Wide LTE-A Deployments.

Author

Siming Zhang, Di Kong, Evangelos Mellios, Angela Doufexi, and Andrew R. Nix

Published

2015

33. Impact of BS antenna number and array geometry on single-user LTE-A data throughputs in realistic Macro and Pico cellular environments.

Author

Siming Zhang, Di Kong, Evangelos Mellios, Geoffrey S. Hilton, Andrew R. Nix, Timothy A. Thomas, and Amitava Ghosh

Published

2015

34. In-situ Atomic-Scale Visualization of Ordering Transformations in Pt-Fe Nanoalloys

Author

Xiaobo Chen, Siming Zhang, Can Li, Dmitri N Zakharov, Sooyeon Hwang, Yimei Zhu, Jiye Fang, Guofeng Wang, and Guangwen Zhou

Subjects

Instrumentation

Published

2022

35. Kif15 deficiency contributes to depression-like behavior in mice

Author

Junpei Wang, Qifeng Tu, Siming Zhang, Xiaomei He, Chao Ma, Xiaowei Qian, Ronghua Wu, Xinyu Shi, Zhangyi Yang, Yan Liu, Zhangji Dong, and Mei Liu

Subjects

Cellular and Molecular Neuroscience, Neurology (clinical), Biochemistry

Published

2023

36. First Principles Prediction of Yield Strength of Body Centered Cubic Structured High Entropy Alloys

Author

Siming Zhang and Guofeng Wang

Published

2023

37. Media moments: how media events and business incentives drive twitter engagement within the small business community

Author

Briana, Trifiro, Michael, Clarke, Sunny, Huang, Brittney, Mills, Yijun, Ye, Siming, Zhang, Maoxin, Zhou, and Chris Chao, Su

Subjects

Human-Computer Interaction, Communication, Media Technology, Computer Science Applications, Information Systems

Abstract

Twitter is one of the most popular social networking platforms today with nearly 238 million active daily users. While the platform is used by a myriad of individuals for various purposes, businesses both large and small have begun to adopt Twitter into their business strategy to better connect with consumers. Considering the growing emphasis on social media engagement in the business sector, the present study examines some of the fastest-growing American small businesses from the perspective of media events theory. According to media events theory, certain large-scale events will attract excess viewership and attention from the public, both on traditional and digital platforms. We examine how small businesses leveraged media events of 2020, including COVID-19 and the 2020 US presidential election, so as to increase engagement and foster the growth of their businesses via Twitter. Using 35000 tweets based on media event-related hashtags collected throughout 2020, we investigated Twitter engagement among 100 of the fastest-growing small businesses in the USA. Through the use of network analysis metrics, we illustrate that businesses that tweeted about media events often received greater levels of user engagement and exerted greater influence over their respective networks.

Published

2022

38. Recent advances in responsive hydrogels for diabetic wound healing

Author

Siming Zhang, Gaoran Ge, Yi Qin, Wenhao Li, Jiale Dong, Jiawei Mei, Ruixiang Ma, Xianzuo Zhang, Jiaxiang Bai, Chen Zhu, Weiwei Zhang, and Dechun Geng

Subjects

Biomaterials, Biomedical Engineering, Bioengineering, Cell Biology, Molecular Biology, Biotechnology

Abstract

Poor wound healing after diabetes mellitus remains a challenging problem, and its pathophysiological mechanisms have not yet been fully elucidated. Persistent bleeding, disturbed regulation of inflammation, blocked cell proliferation, susceptible infection and impaired tissue remodeling are the main features of diabetic wound healing. Conventional wound dressings, including gauze, films and bandages, have a limited function. They generally act as physical barriers and absorbers of exudates, which fail to meet the requirements of the whol diabetic wound healing process. Wounds in diabetic patients typically heal slowly and are susceptible to infection due to hyperglycemia within the wound bed. Once bacterial cells develop into biofilms, diabetic wounds will exhibit robust drug resistance. Recently, the application of stimuli-responsive hydrogels, also known as "smart hydrogels", for diabetic wound healing has attracted particular attention. The basic feature of this system is its capacities to change mechanical properties, swelling ability, hydrophilicity, permeability of biologically active molecules, etc., in response to various stimuli, including temperature, potential of hydrogen (pH), protease and other biological factors. Smart hydrogels can improve therapeutic efficacy and limit total toxicity according to the characteristics of diabetic wounds. In this review, we summarized the mechanism and application of stimuli-responsive hydrogels for diabetic wound healing. It is hoped that this work will provide some inspiration and suggestions for research in this field.

Published

2022

39. Atomic Scale Investigation of the CuPc–MAPbX3 Interface and the Effect of Non-Stoichiometric Perovskite Films on Interfacial Structures

Author

Jeremy Hieulle, Siming Zhang, Guofeng Wang, Collin Stecker, Luis K. Ono, Zhenyu Liu, and Yabing Qi

Subjects

Materials science, business.industry, General Engineering, General Physics and Astronomy, metal halide perovskite, copper phthalocyanine, Atomic units, law.invention, Chemical physics, law, Photovoltaics, scanning tunneling microscopy, General Materials Science, Density functional theory, interfacial properties, Scanning tunneling microscope, Thin film, business, Layer (electronics), Stoichiometry, density functional theory, Perovskite (structure)

Abstract

Metal halide perovskites (MHPs) have become a major topic of research in thin film photovoltaics due to their advantageous optoelectronic properties. These devices typically have the MHP absorber layer sandwiched between two charge selective layers (CSLs). The interfaces between the perovskite layer and these CSLs are potential areas of higher charge recombination. Understanding the nature of these interfaces is key for device improvement. Additionally, non-stoichiometric perovskite films are expected to strongly impact the interfacial properties. In this study, the interface between CH3NH3PbI3 (MAPbI3) and copper phthalocyanine (CuPc), a hole transport layer (HTL), is studied at the atomic scale. We use scanning tunneling microscopy (STM) combined with density functional theory (DFT) predictions to show that CuPc deposited on MAPbX3 (X = I,Br) forms a self-assembled layer consistent with the α-polymorph of CuPc. Additionally, STM images show a distinctly different adsorption orientation for CuPc on non-perovskite domains of the thin film samples. These findings highlight the effect of non-stoichiometric films on the relative orientation at the MHP/HTL interface, which may affect interfacial charge transport in a device. Our work provides an atomic scale view of the MHP/CuPc interface and underscores the importance of understanding interfacial structures and the effect that the film stoichiometry can have on interfacial properties.

Published

2021

40. Succinylation-Associated LncRNA Signature as the Prognosis of Colon Cancer Identified by an Integrative Bioinformatics Analysis

Author

Siming Zhang, Cheng shen, Jue Gu, Jing Li, Xiaohui Jiang, Zhijun Wu, and Aiguo Shen

Abstract

Though treatment techniques and strategies for colon cancer (CC) enhanced, the 5-year survival rate has not been significantly improved. Succinylation and long noncoding RNAs (lncRNAs) are uncertain for the prognostic value in the CC patients. We applied to analyze and obtain succinylation-related lncRNA by coexpression in CC. A novel succinylation-related lncRNA model was constructed by univariate and lasso regression analysis and established principal component analysis (PCA), functional enrichment annotation, tumor immune environment, drug sensitivity and nomogram to verify the model, respectively. Six succinylation-related lncRNA in CC were finally confirmed and distinguish the survival status in our model which was statistically significant differ in training set, testing set, and entire set. The prognosis value with this model associated with age, gender, M0 stage, N2 stage, T3+T4 stage and Stage III+IV. The high-risk group showed a higher mutation rate than the low-risk group. We constructed a model predict overall survival for 1-, 3-, and 5-year with AUCs of 0.694, 0.729, and 0.802. Cisplatin and Temozolomide compounds possess sensitivity in the high-risk group. Our study provided novel insights into the value of the succinylation related lncRNA signature as a predictor of prognosis, which possess high clinical application value in the future.

Published

2022

41. Establishment of metastasis-related prognostic models for colon cancer and bioinformatics analysis of the benefits of aspirin chemoprophylaxis

Author

Jing Li, Cheng Shen, Xiaohui Jiang, Xiaopeng Cui, Zhijun Wu, Yushan Liu, Yanguang Yang, Siming Zhang, Tianyi Huang, and Aiguo Shen

Abstract

Background: Invasion and metastasis are the main factors affecting the prognosis of patients with colorectal cancer. Therefore, it is urgent to explore the key metastasis genes and potential regulatory mechanisms that affect the prognosis of colorectal cancer, and provide new prognostic markers or therapeutic targets for colorectal cancer.Methods: Firstly, we obtained differentially expressed metastasis-related genes in cancer and normal tissues. By constructing WGCNA from differentially expressed genes, the modules most associated with colon cancer were identified. Univariate and lasso-cox regression analyses were used to identify key prognostic genes for the most relevant modules and to establish a risk score model. Nomogram model was constructed to predict OS of colon cancer patients by risk score. GO and KEGG enrichment analysis were performed to study the pathways and functions of these module genes. Iregulon plugin in cytoscape was used to explore the transcription factors of module genes. Finally, aspirin interacting genes were obtained through the Comparative Toxicology Genomics Database, and the clinical significance of aspirin regulation on these genes was clarified.Results: 2062 metastasis-related genes were involved in the construction of WGCNA, blue and yellow modules were significantly correlated with colon cancer. Analysis of GO and KEGG pathways of these two modules showed that the function of differential genes is closely related to many important processes in tumor genesis and metastasis. We used the blue module gene to build a risk score model that predicted overall survival (OS). In addition, nomogram combining risk score with age, stage, and M-stage were developed to better predict 1-, 3-, and 5-year survival. Transcription factor analysis showed that E2F family were the key regulator of blue module, while NFκB1 and STAT3 were the key transcription factors of yellow module. Finally, we identified that patients of colon cancer whose NOX4, CXCL8, CXCL5, GDF15, and MMP13 genes were continuously upregulated may not be suitable for aspirin chemoprophylaxis.Conclusions: We developed and validated a predictive model of metastasis genes. Patients with colon cancer whose NOX4, CXCL8, CXCL5, GDF15, and MMP13 genes are upregulated may not be ideal candidates for aspirin chemoprophylaxis.

Published

2022

42. Network Effects of the 15q13.3 Microdeletion on the Transcriptome and Epigenome in Human-Induced Neurons

Author

Xianglong Zhang, Alexander E. Urban, Wing Hung Wong, Shining Ma, Reenal Pattni, Carolin Purmann, Kasey N. Davis, Joachim Hallmayer, Anima Shrestha, Marcus Ho, Yiling Huang, Jonathan A. Bernstein, and Siming Zhang

Subjects

0301 basic medicine, Chromosome Disorders, Biology, Article, Epigenome, 03 medical and health sciences, 0302 clinical medicine, Seizures, Intellectual Disability, Humans, Gene family, Copy-number variation, Gene, Biological Psychiatry, Gene knockout, Neurons, Genetics, Chromosomes, Human, Pair 15, Chromatin, 030104 developmental biology, DNA methylation, Chromosome Deletion, Transcriptome, Haploinsufficiency, 030217 neurology & neurosurgery

Abstract

Background The 15q13.3 microdeletion is associated with several neuropsychiatric disorders, including autism and schizophrenia. Previous association and functional studies have investigated the potential role of several genes within the deletion in neuronal dysfunction, but the molecular effects of the deletion as a whole remain largely unknown. Methods Induced pluripotent stem cells, from 3 patients with the 15q13.3 microdeletion and 3 control subjects, were generated and converted into induced neurons. We analyzed the effects of the 15q13.3 microdeletion on genome-wide gene expression, DNA methylation, chromatin accessibility, and sensitivity to cisplatin-induced DNA damage. Furthermore, we measured gene expression changes in induced neurons with CRISPR (clustered regularly interspaced short palindromic repeats) knockouts of individual 15q13.3 microdeletion genes. Results In both induced pluripotent stem cells and induced neurons, gene copy number change within the 15q13.3 microdeletion was accompanied by significantly decreased gene expression and no compensatory changes in DNA methylation or chromatin accessibility, supporting the model that haploinsufficiency of genes within the deleted region drives the disorder. Furthermore, we observed global effects of the microdeletion on the transcriptome and epigenome, with disruptions in several neuropsychiatric disorder–associated pathways and gene families, including Wnt signaling, ribosome function, DNA binding, and clustered protocadherins. Individual gene knockouts mirrored many of the observed changes in an overlapping fashion between knockouts. Conclusions Our multiomics analysis of the 15q13.3 microdeletion revealed downstream effects in pathways previously associated with neuropsychiatric disorders and indications of interactions between genes within the deletion. This molecular systems analysis can be applied to other chromosomal aberrations to further our etiological understanding of neuropsychiatric disorders.

Published

2021

43. Composition-dependent ordering transformations in Pt–Fe nanoalloys

Author

Xiaobo Chen, Siming Zhang, Can Li, Zhijuan Liu, Xianhu Sun, Shaobo Cheng, Dmitri N. Zakharov, Sooyeon Hwang, Yimei Zhu, Jiye Fang, Guofeng Wang, and Guangwen Zhou

Subjects

Multidisciplinary

Abstract

Significance Dynamically understanding the microscopic processes governing ordering transformations has rarely been attained. The situation becomes even more challenging for nanoscale alloys, where the significantly increased surface-area-to-volume ratio not only opens up a variety of additional freedoms to initiate an ordering transformation but also allows for kinetic interplay between the surface and bulk due to their close proximity. We provide direct evidence of the microscopic processes controlling the ordering transformation through the surface–bulk interplay in Pt–Fe nanoalloys and new features rendered by variations in alloy composition and chemical stimuli. These results provide a mechanistic detail of ordering transformation phenomena which are widely relevant to nanoalloys as chemical ordering occurs in most multicomponent materials under suitable environmental bias.

Published

2022

44. A Distributed Massive MIMO Testbed to Assess Real-World Performance and Feasibility.

Author

Paul Harris 0001, Siming Zhang, Andrew R. Nix, Mark A. Beach, Simon Armour, and Angela Doufexi

Published

2015

45. Trends in vector-borne transmission efficiency from coinfected hosts: Grapevine leafroll-associated virus-3 and Grapevine virus A

Author

G. K. Blaisdell, Rodrigo P. P. Almeida, Vicki Klaassen, Monica L. Cooper, Adib Rowhani, Kent M. Daane, and Siming Zhang

Subjects

0106 biological sciences, 0301 basic medicine, biology, Inoculation, Transmission (medicine), Host (biology), Plant Science, Horticulture, biology.organism_classification, 01 natural sciences, Virology, Virus, 03 medical and health sciences, 030104 developmental biology, Vector (epidemiology), Mealybug, Agronomy and Crop Science, Pathogen, Virus classification, 010606 plant biology & botany

Abstract

Grapevine leafroll-associated virus 3 (GLRaV-3) is the most prevalent and destructive virus species that contributes to grapevine leafroll disease, an economically damaging disease that affects vineyards globally. Grapevine virus A (GVA) is a virus species in the rugose wood complex and is associated with several vineyard diseases. Both virus species are transmitted by several mealybug species. Transmission efficiency is a major facet of pathogen spread and may be influenced by virus species interactions in the vector or host. We tested transmission efficiency of GLRaV-3 and GVA from nine field-collected source vine samples of Vitis vinifera cv Chardonnay by first instars of Planococcus ficus. Transmission of GLRaV-3 was 22% greater than transmission of GVA. Establishment of new mixed GLRaV-3/GVA infections did not differ significantly from single GLRaV-3 infections following inoculation by P. ficus. These results suggest that GVA may have a higher likelihood of establishing new infections in concert with GLRaV-3 than in single infections.

Published

2020

46. Relation between Cation Distribution and Chemical Bonds in Spinel Nife2o4

Author

Ying Fang, Siming Zhang, Paul R. Ohodnicki, and Guofeng Wang

Subjects

History, Polymers and Plastics, Mechanics of Materials, Materials Chemistry, General Materials Science, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

47. Atomic Scale Investigation of the CuPc-MAPbX

Author

Collin, Stecker, Zhenyu, Liu, Jeremy, Hieulle, Siming, Zhang, Luis K, Ono, Guofeng, Wang, and Yabing, Qi

Abstract

Metal halide perovskites (MHPs) have become a major topic of research in thin film photovoltaics due to their advantageous optoelectronic properties. These devices typically have the MHP absorber layer sandwiched between two charge selective layers (CSLs). The interfaces between the perovskite layer and these CSLs are potential areas of higher charge recombination. Understanding the nature of these interfaces is key for device improvement. Additionally, non-stoichiometric perovskite films are expected to strongly impact the interfacial properties. In this study, the interface between CH

Published

2021

48. Coupling between bulk thermal defects and surface segregation dynamics

Author

Guangwen Zhou, Jonathan Li, Yaguang Zhu, Guofeng Wang, Jerzy T. Sadowski, Siming Zhang, Chaoran Li, Xiao Tong, and Jorge Anibal Boscoboinik

Subjects

Surface (mathematics), Annihilation, Materials science, Condensed matter physics, Vacancy defect, Thermal, Kinetic energy, Coupling (probability)

Abstract

Surface segregation is a phenomenon that depends on the delicate interplay between thermodynamic driving forces and kinetic obstacles, for which elevated temperature is often needed to enhance the atom mobility and reach equilibrium. Using the classic system of ${\mathrm{Cu}}_{3}\mathrm{Au}(100)$ under nonisothermal conditions, herein, we show an adatom process underlying transient surface segregation dynamics through the temperature-change-driven creation and annihilation of thermal vacancies in the bulk and the resulting bulk-surface mass exchanges. This is demonstrated by monitoring the surface composition evolution of ${\mathrm{Cu}}_{3}\mathrm{Au}(100)$ with temperature changes between 250 and $500{\phantom{\rule{0.16em}{0ex}}}^{\ensuremath{\circ}}\mathrm{C}$, showing that the increase in temperature decreases monotonically the surface Au concentration as a result of the transfer of more Cu than Au from the bulk to the surface to form Cu-rich clusters of adatoms. Such a bulk thermal defect effect is expected to be universal in inducing the disparity in the bulk-surface mass exchanges of dissimilar atoms in multicomponent materials because of the inherent differences in the vacancy formation energies of the constituent atoms.

Published

2021

49. Exosomal and extracellular HMGB1 have opposite effects on SASH1 expression in rat astrocytes and glioma C6 cells

Author

Siming Zhang, Chao Ma, Yan Liu, Yingying Yan, Han Chen, Yongjun Wang, Ronghua Wu, Mei Liu, and Liu Yang

Subjects

0301 basic medicine, Cell type, Biophysics, Down-Regulation, Exosomes, Biochemistry, Exosome, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Glioma, Extracellular, medicine, Animals, HMGB1 Protein, Cell adhesion, Molecular Biology, Cells, Cultured, Adaptor Proteins, Signal Transducing, Chemistry, Tumor Suppressor Proteins, Cell Biology, medicine.disease, Microvesicles, Rats, Up-Regulation, Cell biology, Gene Expression Regulation, Neoplastic, Toll-Like Receptor 4, 030104 developmental biology, medicine.anatomical_structure, Astrocytes, 030220 oncology & carcinogenesis, Cancer cell, Extracellular Space, Astrocyte

Abstract

Exosomes are a type of extracellular vesicles derived from cells and mediators of intercellular communication. Different cell types have their own unique exosomes for exchanging information. We previously found that SASH1, a tumor suppressor, was lowly expressed or absent in glioma tissues and glioma C6 cells, but the structure and function of the corresponding exosomes had been unclear. Hence, we aimed to investigate whether exosomes generated from normal glial cells and glioma cells form different protein patterns and whether those derived from normal glial cells affect SASH1 expression in glioma cells. We collected exosomes from astrocytes and C6 cells and identified their exosomal proteins through mass spectrometry. We also performed gene ontology (GO) and Kyoto encyclopedia of genes and genomes (KEGG) analyses, whose results showed that both the total and unique exosomal proteins from each cell type were similar. Moreover, the KEGG analysis revealed different clusters of unique exosomal proteins in glial cells and glioma cells. In the normal glial cells, the top clusters were mainly involved in processes with RNA transcripts and proteins, whereas in glioma cells the clusters were attributed to PI3K-Akt signaling, cell adhesion, and cancer-related pathways. Western blot analysis showed that HMGB1 exists in exosomes derived from cultured astrocytes, although its expression was higher in glioma C6 cells. Furthermore, we found that exosomes extracted from astrocytes could increase SASH1 expression in C6 cells (P = 0.040), whereas those derived from HMGB1-depleted astrocytes could not (P = 0.6133). The expression levels of SASH1 decreased after the addition of extracellular recombinant HMGB1 protein, whereas that of TLR4 increased. Our study is the first to demonstrate that HMGB1 plays different roles depending on its form: as an extracellular protein, HMGB1 decreases SASH1 expression, but as an exosomal protein, HMGB1 increases SASH1 expression. Nevertheless, the mechanism, which partly depends on the TLR4 pathway, behind these opposing effects requires further study. Our novel findings on the structure-dependent roles of the cytokine HMGB1 in promoting or inhibiting cancer provide a fresh insight into the interactions of cancer cells with the microenvironment.

Published

2019

50. Water Transport in Unsaturated Cracked Concrete under Pressure

Author

Gang Wei, Liqiao Jin, Xinjiang Wei, Siming Zhang, Kuixin Xu, and Zhang Yuanzhu

Subjects

Materials science, Water transport, Article Subject, Theoretical models, Penetration test, Permeability (earth sciences), Water potential, lcsh:TA1-2040, Geotechnical engineering, Underwater, lcsh:Engineering (General). Civil engineering (General), Saturation (chemistry), Penetration depth, Civil and Structural Engineering

Abstract

In order to analyze the process of hydraulic water infiltrating cracked concrete of underwater tunnels, the equation of water transport in unsaturated cracked concrete under pressure was proposed according to the double-porosity medium model. Penetration tests on prefabricated cracked concrete blocks were conducted, and then the influence of hydraulic pressure, initial saturation, and crack width on water transport was studied. The results show that the larger the water pressure, the lower the initial saturation, and the wider the crack width, then the greater the penetration depth, which can be reasonably explained according to water motion theoretical models in this study. Moreover, the TOUGH2 software was used to simulate the change and distribution of saturation, driving potential, and water velocity of unsaturated cracked concrete, which further proved the experimental results and theoretical analysis. It reflects that both pressure potential and matric potential are the driving force of water transport in underwater cracked concrete, and the driving force will be converted with the change of concrete saturation. In addition, crack width is positively correlated with concrete permeability.

Published

2019