Nuosi Wu scite author profile

Nuosi Wu

5Publications

54Citation Statements Received

161Citation Statements Given

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206

160

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Shenzhen University

Publications

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Joint learning of multiple gene networks from single-cell gene expression data

Yin

Ou-Yang

et al. 2020

Computational and Structural Biotechnology Journal

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Inferring gene networks from gene expression data is important for understanding functional organizations within cells. With the accumulation of single-cell RNA sequencing (scRNA-seq) data, it is possible to infer gene networks at single cell level. However, due to the characteristics of scRNA-seq data, such as cellular heterogeneity and high sparsity caused by dropout events, traditional network inference methods may not be suitable for scRNA-seq data. In this study, we introduce a novel joint Gaussian copula graphical model (JGCGM) to jointly estimate multiple gene networks for multiple cell subgroups from scRNA-seq data. Our model can deal with non-Gaussian data with missing values, and identify the common and unique network structures of multiple cell subgroups, which is suitable for scRNA-seq data. Extensive experiments on synthetic data demonstrate that our proposed model outperforms other compared state-of-the-art network inference models. We apply our model to real scRNA-seq data sets to infer gene networks of different cell subgroups. Hub genes in the estimated gene networks are found to be biological significance.

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WDSPdb: an updated resource for WD40 proteins

Zhou

et al. 2019

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SummaryThe WD40-repeat proteins are a large family of scaffold molecules that assemble complexes in various cellular processes. Obtaining their structures is the key to understanding their interaction details. We present WDSPdb 2.0, a significantly updated resource providing accurately predicted secondary and tertiary structures and featured sites annotations. Based on an optimized pipeline, WDSPdb 2.0 contains about 600 thousand entries, an increase of 10-fold, and integrates more than 37 000 variants from sources of ClinVar, Cosmic, 1000 Genomes, ExAC, IntOGen, cBioPortal and IntAct. In addition, the web site is largely improved for visualization, exploring and data downloading.Availability and implementation http://www.wdspdb.com/wdsp/ or http://wu.scbb.pkusz.edu.cn/wdsp/.Supplementary information Supplementary data are available at Bioinformatics online.

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A comparative study on decomposition-based multi-objective evolutionary algorithms for many-objective optimization

Yang

et al. 2016

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Weighted Fused Pathway Graphical Lasso for Joint Estimation of Multiple Gene Networks

Jian

Zhang

et al. 2019

Front. Genet.

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Gene regulatory networks (GRNs) are often inferred based on Gaussian graphical models that could identify the conditional dependence among genes by estimating the corresponding precision matrix. Classical Gaussian graphical models are usually designed for single network estimation and ignore existing knowledge such as pathway information. Therefore, they can neither make use of the common information shared by multiple networks, nor can they utilize useful prior information to guide the estimation. In this paper, we propose a new weighted fused pathway graphical lasso (WFPGL) to jointly estimate multiple networks by incorporating prior knowledge derived from known pathways and gene interactions. Based on the assumption that two genes are less likely to be connected if they do not participate together in any pathways, a pathway-based constraint is considered in our model. Moreover, we introduce a weighted fused lasso penalty in our model to take into account prior gene interaction data and common information shared by multiple networks. Our model is optimized based on the alternating direction method of multipliers (ADMM). Experiments on synthetic data demonstrate that our method outperforms other five state-of-the-art graphical models. We then apply our model to two real datasets. Hub genes in our identified state-specific networks show some shared and specific patterns, which indicates the efficiency of our model in revealing the underlying mechanisms of complex diseases.

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A growing partitional clustering based on particle swarm optimization

Zhu

2014

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Nuosi Wu

Joint learning of multiple gene networks from single-cell gene expression data

WDSPdb: an updated resource for WD40 proteins

A comparative study on decomposition-based multi-objective evolutionary algorithms for many-objective optimization

Weighted Fused Pathway Graphical Lasso for Joint Estimation of Multiple Gene Networks

A growing partitional clustering based on particle swarm optimization

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