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288 results on '"Xiaotong Shen"'

1. Ciclopirox inhibits SARS-CoV-2 replication by promoting the degradation of the nucleocapsid protein

Author

Xiafei Wei, Yuzheng Zhou, Xiaotong Shen, Lujie Fan, Donglan Liu, Xiang Gao, Jian Zhou, Yezi Wu, Yunfei Li, Wei Feng, and Zheng Zhang

Subjects
SARS-CoV-2, Nucleocapsid protein, Viral replication, Ciclopirox, Abnormal aggregation, Protein degradation, Therapeutics. Pharmacology, RM1-950
Abstract

The nucleocapsid protein (NP) plays a crucial role in SARS-CoV-2 replication and is the most abundant structural protein with a long half-life. Despite its vital role in severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) assembly and host inflammatory response, it remains an unexplored target for drug development. In this study, we identified a small-molecule compound (ciclopirox) that promotes NP degradation using an FDA-approved library and a drug-screening cell model. Ciclopirox significantly inhibited SARS-CoV-2 replication both in vitro and in vivo by inducing NP degradation. Ciclopirox induced abnormal NP aggregation through indirect interaction, leading to the formation of condensates with higher viscosity and lower mobility. These condensates were subsequently degraded via the autophagy-lysosomal pathway, ultimately resulting in a shortened NP half-life and reduced NP expression. Our results suggest that NP is a potential drug target, and that ciclopirox holds substantial promise for further development to combat SARS-CoV-2 replication.

Published
2024
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2. Associations between plasma metals and hemoglobin in female college students with dysmenorrhea

Author

Qingzhi Hou, Yuchen Zhang, Hua Yang, Yunjie Wang, Zexi Xu, Jiujing Lin, Jia Li, Chenyang Hou, Zhanhui Qiu, Haoran Zhang, Ping Zhang, Xiangsheng Xue, Xiaotong Shen, Xinghua Xu, Hui Zou, Zhenrui Ma, Jing Gao, and Xiaomei Li

Subjects
Multi-metal, Exposure, Combined effect, Hemoglobin, Dysmenorrhea, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Background: Hemoglobin (HGB) was the most important factors which could cause dysmenorrhea in women. Metals exposure and hemoglobin level in dysmenorrhea female was unclear. We aimed to explore the associations of multi-metal exposure and HGB level in female college students with dysmenorrhea. Methods: 253 female students who had dysmenorrhea was included in our study. The Last Absolute Shrinkage and Selection Operator (LASSO) regression, generalized linear model (GLM), and Bayesian Kernel Machine Regression (BKMR) models were used to explore the associations of multi-metal exposure and HGB levels in female college students with dysmenorrhea. Results: GLM results showed that plasma Fe, Ni and Rb was positively associated with HGB and plasma Co was negatively associated with HGB. In menarche age ≤13 years old group, plasma Co and Rb only was negatively and positively associated with HGB level, respectively, and plasma Ni had positive association with HGB level in menarche age >13 years old group. BKMR results showed the reverse U-shaped relationship between the five metals mixture (Co, Fe, Ni, Cu and Rb) and HGB levels in overall and menarche age ≤13 years old group. However, there were positive association between the five metals mixture and HGB levels in menarche age >13 years old group. Conclusion: Our present study revealed that metals (Fe, Ni, Co, Rb, Cu) mixture exposure could effect HGB levels in female college students with dysmenorrhea. And the relationships were different during different menarche age in female college students.

Published
2024
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3. The E3 ligase TRIM22 restricts SARS-CoV-2 replication by promoting proteasomal degradation of NSP8

Author

Lujie Fan, Yuzheng Zhou, Xiafei Wei, Wei Feng, Huimin Guo, Yunfei Li, Xiang Gao, Jian Zhou, Yanling Wen, Yezi Wu, Xiaotong Shen, Lei Liu, Gang Xu, and Zheng Zhang

Subjects
SARS-CoV-2, NSP8, TRIM22, ubiquitination, protein degradation, Microbiology, QR1-502
Abstract

ABSTRACT Replication of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) genome is mediated by a complex of non-structural proteins (NSPs), of which NSP7 and NSP8 serve as subunits and play a key role in promoting the activity of RNA-dependent RNA polymerase (RdRp) of NSP12. However, the stability of subunits of the RdRp complex has rarely been reported. Here, we found that NSP8 was degraded by the proteasome in host cells, and identified tripartite motif containing 22 (TRIM22) as its E3 ligase. The interferon (IFN) signaling pathway was activated upon viral invasion into host cells, and TRIM22 expression increased. TRIM22 interacted with NSP8 and ubiquitinated it at Lys97 via K48-type ubiquitination. TRIM22 overexpression significantly reduced viral RNA and protein levels. Knockdown of TRIM22 enhanced viral replication. This study provides a new explanation for treating patients suffering from SARS-CoV-2 with IFNs and new possibilities for drug development targeting the interaction between NSP8 and TRIM22.IMPORTANCENon-structural proteins (NSPs) play a crucial role in the replication of severe acute respiratory syndrome coronavirus 2, facilitating virus amplification and propagation. In this study, we conducted a comprehensive investigation into the stability of all subunits comprising the RNA-dependent RNA polymerase complex. Notably, our results reveal for the first time that NSP8 is a relatively unstable protein, which is found to be readily recognized and degraded by the proteasome. This degradation process is mediated by the host E3 ligase tripartite motif containing 22 (TRIM22), which is also a member of the interferon stimulated gene (ISG) family. Our study elucidates a novel mechanism of antiviral effect of TRIM22, which utilizes its own E3 ubiquitin ligase activity to hinder viral replication by inducing ubiquitination and subsequent degradation of NSP8. These findings provide new ideas for the development of novel therapeutic strategies. In addition, the conserved property of NSP8 raises the possibility of developing broad antiviral drugs targeting the TRIM22-NSP8 interaction.

Published
2024
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4. Using GWAS summary data to impute traits for genotyped individuals

Author

Jingchen Ren, Zhaotong Lin, Ruoyu He, Xiaotong Shen, and Wei Pan

Subjects
Linear and nonlinear associations, Nonlinear models, PRS, SNP-SNP interactions, SNP-trait association, Genetics, QH426-470
Abstract

Summary: Genome-wide association study (GWAS) summary data have become extremely useful in daily routine data analysis, largely facilitating new methods development and new applications. However, a severe limitation with the current use of GWAS summary data is its exclusive restriction to only linear single nucleotide polymorphism (SNP)-trait association analyses. To further expand the use of GWAS summary data, along with a large sample of individual-level genotypes, we propose a nonparametric method for large-scale imputation of the genetic component of the trait for the given genotypes. The imputed individual-level trait values, along with the individual-level genotypes, make it possible to conduct any analysis as with individual-level GWAS data, including nonlinear SNP-trait associations and predictions. We use the UK Biobank data to highlight the usefulness and effectiveness of the proposed method in three applications that currently cannot be done with only GWAS summary data (for SNP-trait associations): marginal SNP-trait association analysis under non-additive genetic models, detection of SNP-SNP interactions, and genetic prediction of a trait using a nonlinear model of SNPs.

Published
2023
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5. Data Flush

Author

Xiaotong Shen, Xuan Bi, and Rex Shen

Subjects
Electronic computers. Computer science, QA75.5-76.95
Published
2022
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6. Effect of Nitrogen Concentration on the Alkalophilic Microalga Nitzschia sp. NW129-a Promising Feedstock for the Integrated Production of Lipids and Fucoxanthin in Biorefinery

Author

Zihao Cao, Xiaotong Shen, Xujing Wang, Baohua Zhu, Kehou Pan, and Yun Li

Subjects
alkaliphilic microalgae, biodiesel, fucoxanthin, lipids, nitrogen concentration, Nitzschia sp., Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

Microalgae are considered promising resources for producing a variety of high-value-added products, especially for lipids and pigments. Alkalophilic microalgae have more advantages than other microalgae when cultured outdoors on a large scale. The present study investigated the comprehensive effects of different nitrogen concentrations on fucoxanthin (Fx), lipids accumulation and the fatty acid profile of the alkaliphilic microalgae Nitzschia sp. NW129 to evaluate the potential for simultaneous production of Fx and biofuels. Fx and Lipids amassed in a coordinated growth-dependent manner in response to various concentrations, reaching 18.18 mg g–1 and 40.67% dry weight (DW), respectively. The biomass of Nitzschia sp. NW129 was 0.58 ± 0.02 g L–1 in the medium at the concentration of 117.65 mM. The highest productivities of Fx (1.44 mg L–1 d–1) and lipid (19.95 ± 1.29 mg L–1 d–1) were obtained concurrently at this concentration. Furthermore, the fatty acid methyl esters revealed excellent biofuel properties with an appropriate value of the degree unsaturation (49.97), cetane number (62.72), and cold filter plugging point (2.37), which met the European standards for biofuel production (EN14214). These results provided a reliable strategy for further industrialization and comprehensive production of biofuel and Fx by using the alkaliphilic microalgal Nitzschia sp. NW129.

Published
2022
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8. Perception, Planning, Control, and Coordination for Autonomous Vehicles

Author

Scott Drew Pendleton, Hans Andersen, Xinxin Du, Xiaotong Shen, Malika Meghjani, You Hong Eng, Daniela Rus, and Marcelo H. Ang

Subjects
autonomous vehicles, localization, perception, planning, automotive control, multi-vehicle cooperation, Mechanical engineering and machinery, TJ1-1570
Abstract

Autonomous vehicles are expected to play a key role in the future of urban transportation systems, as they offer potential for additional safety, increased productivity, greater accessibility, better road efficiency, and positive impact on the environment. Research in autonomous systems has seen dramatic advances in recent years, due to the increases in available computing power and reduced cost in sensing and computing technologies, resulting in maturing technological readiness level of fully autonomous vehicles. The objective of this paper is to provide a general overview of the recent developments in the realm of autonomous vehicle software systems. Fundamental components of autonomous vehicle software are reviewed, and recent developments in each area are discussed.

Published
2017
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9. Longitudinal analysis is more powerful than cross-sectional analysis in detecting genetic association with neuroimaging phenotypes.

Author

Zhiyuan Xu, Xiaotong Shen, Wei Pan, and Alzheimer's Disease Neuroimaging Initiative

Subjects
Medicine, Science
Abstract

Most existing genome-wide association analyses are cross-sectional, utilizing only phenotypic data at a single time point, e.g. baseline. On the other hand, longitudinal studies, such as Alzheimer's Disease Neuroimaging Initiative (ADNI), collect phenotypic information at multiple time points. In this article, as a case study, we conducted both longitudinal and cross-sectional analyses of the ADNI data with several brain imaging (not clinical diagnosis) phenotypes, demonstrating the power gains of longitudinal analysis over cross-sectional analysis. Specifically, we scanned genome-wide single nucleotide polymorphisms (SNPs) with 56 brain-wide imaging phenotypes processed by FreeSurfer on 638 subjects. At the genome-wide significance level P < 1.8 x 10(9)) or a less stringent level (e.g. P < 10(7)), longitudinal analysis of the phenotypic data from the baseline to month 48 identified more SNP-phenotype associations than cross-sectional analysis of only the baseline data. In particular, at the genome-wide significance level, both SNP rs429358 in gene APOE and SNP rs2075650 in gene TOMM40 were confirmed to be associated with various imaging phenotypes in multiple regions of interests (ROIs) by both analyses, though longitudinal analysis detected more regional phenotypes associated with the two SNPs and indicated another significant SNP rs439401 in gene APOE. In light of the power advantage of longitudinal analysis, we advocate its use in current and future longitudinal neuroimaging studies.

Published
2014
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26. Biomineralization of DNA Nanoframeworks for Intracellular Delivery, On-Demand Diagnosis, and Synergistic Cancer Treatments

Author

Xiaoni Wang, Xiaotong Shen, Jingjing Li, Xiyang Ge, Jin Ouyang, and Na Na

Subjects
Biomineralization, MicroRNAs, Doxorubicin, Neoplasms, Nanoparticles, DNA, RNA, Small Interfering, Silicon Dioxide, Analytical Chemistry
Abstract

DNA nanoframeworks, with great biological information and controlled framework structures, exhibit great potentials in biological applications. Their applications are normally limited by unstable structures susceptible to hydrolysis, depurination, depyrimidination, oxidation, alkylation, or nuclease degradations. Herein, to ensure the mechanical and chemical stabilities of DNA nanoframeworks for intracellular applications, biomineralization of multifunctional DNA nanoframeworks with a tetrahedral skeleton is employed. Via silicification, the S-S bond is simultaneously introduced to obtain the silica-armored DNA nanoframeworks (Si-DNA nanoframeworks), mechanically and chemically stabilized for efficient intracellular deliveries. This successfully prevents degradations and leakages of reagents loaded on Si-DNA nanoframeworks, including biomolecular siRNA and small DOX drugs. Furthermore, the nucleic acid strands of the nanoframeworks are labeled with FAM and the quencher, facilitating miRNA detection upon "turn-on" signals from hybridizations. Therefore, the nanoframeworks collapse via double responses of the silica coating (silica acidic dissolution and S-S reduction by GSH) in cancer cells, realizing on-demand reagent release for miRNA detection and synergistic treatments (by siRNA and DOX). Demonstrated by both in vivo and in vitro experiments, the biomineralization has stabilized DNA nanomaterials for biological applications.

Published
2022

28. Autonomous golf cars for public trial of mobility-on-demand service.

Author

Scott Pendleton, Tawit Uthaicharoenpong, Zhuang Jie Chong, James Guo Ming Fu, Baoxing Qin, Wei Liu 0024, Xiaotong Shen, Zhiyong Weng, Cody Kamin, Mark Adam Ang, Lucas Tetsuya Kuwae, Katarzyna Anna Marczuk, Hans Andersen, Mengdan Feng, Gregory Butron, Zhuang Zhi Chong, Marcelo H. Ang, Emilio Frazzoli, and Daniela Rus

Published
2015
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33. Deep reinforcement learning for personalized treatment recommendation

Author

Mingyang Liu, Xiaotong Shen, and Wei Pan

Subjects
Machine Learning, Statistics and Probability, Epidemiology, Neoplasms, Humans, Precision Medicine, Markov Chains
Abstract

In precision medicine, the ultimate goal is to recommend the most effective treatment to an individual patient based on patient-specific molecular and clinical profiles, possibly high-dimensional. To advance cancer treatment, large-scale screenings of cancer cell lines against chemical compounds have been performed to help better understand the relationship between genomic features and drug response; existing machine learning approaches use exclusively supervised learning, including penalized regression and recommender systems. However, it would be more efficient to apply reinforcement learning to sequentially learn as data accrue, including selecting the most promising therapy for a patient given individual molecular and clinical features and then collecting and learning from the corresponding data. In this article, we propose a novel personalized ranking system called Proximal Policy Optimization Ranking (PPORank), which ranks the drugs based on their predicted effects per cell line (or patient) in the framework of deep reinforcement learning (DRL). Modeled as a Markov decision process, the proposed method learns to recommend the most suitable drugs sequentially and continuously over time. As a proof-of-concept, we conduct experiments on two large-scale cancer cell line data sets in addition to simulated data. The results demonstrate that the proposed DRL-based PPORank outperforms the state-of-the-art competitors based on supervised learning. Taken together, we conclude that novel methods in the framework of DRL have great potential for precision medicine and should be further studied.

Published
2022

37. Inferring a directed acyclic graph of phenotypes from GWAS summary statistics∗

Author

Rachel Zilinskas, Chunlin Li, Xiaotong Shen, Wei Pan, and Tianzhong Yang

Abstract

Estimating phenotype networks is a growing field in computational biology. It helps deepen the understanding of disease etiology and is useful in many applications. In this study, we present a method that constructs a phenotype network by assuming a Gaussian linear structure model embedding a directed acyclic graph (DAG). We utilize genetic variants as instrumental variables and show how our method only requires access to summary statistics from a genome-wide association study (GWAS) and a reference panel of genotype data. Besides estimation, a distinct feature of the method is its summary statistics-based likelihood ratio test on directed edges. We applied our method to estimate a causal network of 29 cardiovascular-related proteins and linked the estimated network to Alzheimer’s disease (AD). A simulation study was conducted to demonstrate the effectiveness of this method. An R package implementing the proposed method and an R Shiny App for the visualization of the estimated protein network are being made available.

Published
2023

38. Nonlinear causal discovery with confounders*

Author

Chunlin Li, Xiaotong Shen, and Wei Pan

Subjects
Methodology (stat.ME), FOS: Computer and information sciences, Statistics and Probability, Statistics, Probability and Uncertainty, Statistics - Methodology
Abstract

This article introduces a causal discovery method to learn nonlinear relationships in a directed acyclic graph with correlated Gaussian errors due to confounding. First, we derive model identifiability under the sublinear growth assumption. Then, we propose a novel method, named the Deconfounded Functional Structure Estimation (DeFuSE), consisting of a deconfounding adjustment to remove the confounding effects and a sequential procedure to estimate the causal order of variables. We implement DeFuSE via feedforward neural networks for scalable computation. Moreover, we establish the consistency of DeFuSE under an assumption called the strong causal minimality. In simulations, DeFuSE compares favorably against state-of-the-art competitors that ignore confounding or nonlinearity. Finally, we demonstrate the utility and effectiveness of the proposed approach with an application to gene regulatory network analysis. The Python implementation is available at https://github.com/chunlinli/defuse., 28 pages, 4 figures, 3 tables

Published
2023
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44. Accelerated plasma degradation of organic pollutants in milliseconds and examinations by mass spectrometry

Author

Weixiang Li, Jianghui Sun, Yiyan Yin, Hua Lu, Na Na, Xiaotong Shen, Xiujuan Feng, and Jin Ouyang

Subjects
Pollutant, Electrospray, Millisecond, Chemistry, 02 engineering and technology, General Chemistry, Plasma, 010402 general chemistry, 021001 nanoscience & nanotechnology, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Ambient mass spectrometry, Chemical engineering, Degradation (geology), 0210 nano-technology
Abstract

The rapid degradation of organic pollutants, process monitoring and online controlling to obtain advanced products and decreased by-products are great and challenging tasks in environmental treatments. Herein, an accelerated plasma degradation in milliseconds was achieved by combining electrospray-based acceleration and plasma-based degradation. Taking the degradation of chloroaniline as an example, 97% of the degradation can be achieved in milliseconds. The velocity distribution of droplets was determined to be 40–50 m/s after being degraded for 0.30 ms, which exhibited different degradation behaviors in different milliseconds. Simultaneously, by virtue of the real-time and on-line detection ability of ambient mass spectrometry, intermediates, by-products and advanced products were monitored. Therefore, degradation mechanisms for different degradation times were proposed, which would provide theoretical guidance on obtaining efficient and green degradation. The fabrication, examining and understanding of accelerated plasma degradation not only enlarged application of accelerated reactions, but also promoted green and efficient degradation for environmental treatments.

Published
2021

48. DeLIVR: a deep learning approach to IV regression for testing nonlinear causal effects in transcriptome-wide association studies

Author

Ruoyu He, Mingyang Liu, Zhaotong Lin, Zhong Zhuang, Xiaotong Shen, and Wei Pan

Subjects
Statistics and Probability, General Medicine, Statistics, Probability and Uncertainty
Abstract

Summary Transcriptome-wide association studies (TWAS) have been increasingly applied to identify (putative) causal genes for complex traits and diseases. TWAS can be regarded as a two-sample two-stage least squares method for instrumental variable (IV) regression for causal inference. The standard TWAS (called TWAS-L) only considers a linear relationship between a gene’s expression and a trait in stage 2, which may lose statistical power when not true. Recently, an extension of TWAS (called TWAS-LQ) considers both the linear and quadratic effects of a gene on a trait, which however is not flexible enough due to its parametric nature and may be low powered for nonquadratic nonlinear effects. On the other hand, a deep learning (DL) approach, called DeepIV, has been proposed to nonparametrically model a nonlinear effect in IV regression. However, it is both slow and unstable due to the ill-posed inverse problem of solving an integral equation with Monte Carlo approximations. Furthermore, in the original DeepIV approach, statistical inference, that is, hypothesis testing, was not studied. Here, we propose a novel DL approach, called DeLIVR, to overcome the major drawbacks of DeepIV, by estimating a related but different target function and including a hypothesis testing framework. We show through simulations that DeLIVR was both faster and more stable than DeepIV. We applied both parametric and DL approaches to the GTEx and UK Biobank data, showcasing that DeLIVR detected additional 8 and 7 genes nonlinearly associated with high-density lipoprotein (HDL) cholesterol and low-density lipoprotein (LDL) cholesterol, respectively, all of which would be missed by TWAS-L, TWAS-LQ, and DeepIV; these genes include BUD13 associated with HDL, SLC44A2 and GMIP with LDL, all supported by previous studies.

Published
2022

50. Daily evening melatonin prolongs survival among patients with advanced non-small-cell lung cancer

Author

Tim Birdsall, William J. M. Hrushesky, Dinah Faith Q. Huff, Justin Reynolds, David E. Blask, Robert D. Levin, Digant Gupta, Christopher G. Lis, James F. Grutsch, Xiaotong Shen, Patricia A. Wood, and Dennis K. Pearl

Subjects
Evening, Physiology, business.industry, 0402 animal and dairy science, Cancer, Signs and symptoms, 04 agricultural and veterinary sciences, medicine.disease, 040201 dairy & animal science, Melatonin, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Darkness, medicine, Non small cell, Circadian rhythm, business, Lung cancer, 030217 neurology & neurosurgery, Ecology, Evolution, Behavior and Systematics, medicine.drug
Abstract

Cancer patients show the signs and symptoms of a failing circadian organization. Melatonin, secreted only during nightly darkness, promotes nightly sleep and synchronizes daily molecular and physio...

Published
2021

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