Xiaohao Zheng scite author profile

Weighted correlation network analysis (WGCNA) is a statistical method that has been widely used in recent years to explore gene co-expression modules. Competing endogenous RNA (ceRNA) is commonly involved in the cancer gene expression regulation mechanism. Some ceRNA networks are recognized in gastric cancer; however, the prognosisassociated ceRNA network has not been fully identified using WGCNA. We performed WGCNA using datasets from The Cancer Genome Atlas (TCGA) and the Genotype-Tissue Expression (GTEx) to identify cancer-associated modules. The criteria of differentially expressed RNAs between normal stomach samples and gastric cancer samples were set at the false discovery rate (FDR) < 0.01 and |fold change (FC)| > 1.3. The ceRNA relationships obtained from the RNAinter database were examined by both the Pearson correlation test and hypergeometric test to confirm the mRNA-lncRNA regulation. Overlapped genes were recognized at the intersections of genes predicted by ceRNA relationships, differentially expressed genes, and genes in cancer-specific modules. These were then used for univariate and multivariate Cox analyses to construct a risk score model. The ceRNA network was constructed based on the genes in this model. WGCNAuncovered genes in the green and turquoise modules are those most associated with gastric cancer. Eighty differentially expressed genes were observed to have potential prognostic value, which led to the identification of 12 prognosis-related mRNAs (KIF15, FEN1, ZFP69B, SP6, SPARC, TTF2, MSI2, KYNU, ACLY, KIF21B, SLC12A7, and ZNF823) to construct a risk score model. The risk genes were validated using the GSE62254 and GSE84433 datasets, with 0.82 as the universal cutoff value. 12 genes, 12 lncRNAs, and 35 miRNAs were used to build a ceRNA network with 86 dysregulated lncRNA-mRNA ceRNA pairs. Finally, we developed a 12-gene signature from both prognosis-related and tumorspecific genes, and then constructed a ceRNA network in gastric cancer. Our findings may provide novel insights into the treatment of gastric cancer.

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Ultrasound-Based Detection of Lung Abnormalities Using Single Shot Detection Convolutional Neural Networks

Kulhare

Zheng

Mehanian

et al. 2018

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The Conversion of Perhydropolysilazane into SiON Films Characterized by X‐Ray Photoelectron Spectroscopy

et al. 2012

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Silicon oxynitride (SiON) films of~1 lm thickness were made by dip coating and subsequent thermal treatment of a preceramic polymer: perhydropolysilazane (PHPS). X-ray photoelectron spectroscopy was used to analyze the surface of a series of SiON films annealed in air between room temperature and 800°C. Results reveal that the progressive changes in the bonding states of silicon, oxygen, and nitrogen due to different degrees of annealing lead to a systematic evolution of atomic ratios of the films. It is shown that PHPS forms a unique amorphous SiO x N y material upon annealing in air up to 800°C with evolving compositions, instead of a mixture of Si 3 N 4 and SiO 2 .R. Riedel-contributing editor Manuscript No. 31307.

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Zn/O ratio and oxygen chemical state of nanocrystalline ZnO films grown at different temperatures

Fan¹,

Zheng²,

Wu³

et al. 2012

Chinese Phys. B

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Dynamic Interplay between Structural Variations and 3D Genome Organization in Pancreatic Cancer

et al. 2022

Advanced Science

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Structural variations (SVs) are the greatest source of variations in the genome and can lead to oncogenesis. However, the identification and interpretation of SVs in human cancer remain technologically challenging. Here, long-read sequencing is first employed to depict the signatures of structural variations in carcinogenesis of human pancreatic ductal epithelium. Then widespread reprogramming of the 3D chromatin architecture is revealed by an in situ Hi-C technique. Integrative analyses indicate that the distribution pattern of SVs among the 3D genome is highly cell-type specific and the bulk remodeling effects of SVs in the chromatin organization partly depend on intercellular genomic heterogeneity. Meanwhile, contact domains tend to minimize these disrupting effects of SVs within local adjacent genomic regions to maintain overall stability. Notably, complex genomic rearrangements involving two key driver genes CDKN2A and SMAD4 are identified, and their influence on the expression of oncogenes MIR31HG, MYO5B, etc., are further elucidated from both a linear view and 3D perspective. Overall, this work provides a genome-wide resource and highlights the impact, complexity, and dynamicity of the interplay between structural variations and high-order chromatin organization, which expands the current understanding of the pathogenesis of SVs in human cancer.

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Synergistic effect of magnetite and zero-valent iron on anaerobic degradation and methanogenesis of phenol

Lin

Zheng

et al. 2019

Bioresource Technology

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Xiaohao Zheng

Bletilla striata: Medicinal uses, phytochemistry and pharmacological activities

An Acoustic Backscatter-Based Method for Localization of Lesions Induced by High-Intensity Focused Ultrasound

Construction and Analysis of the Tumor-Specific mRNA–miRNA–lncRNA Network in Gastric Cancer

Ultrasound-Based Detection of Lung Abnormalities Using Single Shot Detection Convolutional Neural Networks

The Conversion of Perhydropolysilazane into SiON Films Characterized by X‐Ray Photoelectron Spectroscopy

Zn/O ratio and oxygen chemical state of nanocrystalline ZnO films grown at different temperatures

Dynamic Interplay between Structural Variations and 3D Genome Organization in Pancreatic Cancer

Synergistic effect of magnetite and zero-valent iron on anaerobic degradation and methanogenesis of phenol

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