DiffGRN：差异基因调控网络分析

IF 0.2 4区生物学 Q4 MATHEMATICAL & COMPUTATIONAL BIOLOGY

International Journal of Data Mining and Bioinformatics Pub Date : 2018-09-27 DOI:10.1504/IJDMB.2018.10016325

Youngsoon Kim, Jie Hao, Yadu Gautam, T. Mersha, Mingon Kang

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引用次数: 15

摘要

识别在不同条件下具有显著变化的差异基因调节因子对于理解疾病的复杂生物学机制至关重要。差分网络分析（DiNA）基于基因调控网络来检查不同的生物过程，该网络用图模型表示基因之间的调控相互作用。尽管DiNA的大多数研究都考虑了基于相关性的推断来从基因表达数据构建基因调控网络，因为其直观的表示和简单的实现，但该方法缺乏对基因之间因果效应和多变量效应的表示。在本文中，我们提出了一种称为差异基因调控网络（DiffGRN）的方法，该方法推断两组之间的差异基因调控。我们使用随机LASSO推断出两组的基因调控网络，然后通过所提出的显著性检验确定差异基因调控。DiffGRN的优点是捕捉同时调节基因的基因的多变量效应，识别基因调节的因果关系，并发现基于回归的基因调节网络之间的差异基因调节因子。我们通过模拟实验对DiffGRN进行了评估，并显示出其比目前最先进的基于相关性的方法DINGO更出色的性能。DiffGRN应用于哮喘的基因表达数据。哮喘数据的DiNA显示了许多基因调控，如生物学文献中报道的ADAM12和RELB。

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DiffGRN: differential gene regulatory network analysis

Identification of differential gene regulators with significant changes under disparate conditions is essential to understand complex biological mechanism in a disease. Differential Network Analysis (DiNA) examines different biological processes based on gene regulatory networks that represent regulatory interactions between genes with a graph model. While most studies in DiNA have considered correlation-based inference to construct gene regulatory networks from gene expression data due to its intuitive representation and simple implementation, the approach lacks in the representation of causal effects and multivariate effects between genes. In this paper, we propose an approach named Differential Gene Regulatory Network (DiffGRN) that infers differential gene regulation between two groups. We infer gene regulatory networks of two groups using Random LASSO, and then we identify differential gene regulations by the proposed significance test. The advantages of DiffGRN are to capture multivariate effects of genes that regulate a gene simultaneously, to identify causality of gene regulations, and to discover differential gene regulators between regression-based gene regulatory networks. We assessed DiffGRN by simulation experiments and showed its outstanding performance than the current state-of-the-art correlation-based method, DINGO. DiffGRN is applied to gene expression data in asthma. The DiNA with asthma data showed a number of gene regulations, such as ADAM12 and RELB, reported in biological literature.

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来源期刊

International Journal of Data Mining and Bioinformatics 生物-数学与计算生物学

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Mining bioinformatics data is an emerging area at the intersection between bioinformatics and data mining. The objective of IJDMB is to facilitate collaboration between data mining researchers and bioinformaticians by presenting cutting edge research topics and methodologies in the area of data mining for bioinformatics. This perspective acknowledges the inter-disciplinary nature of research in data mining and bioinformatics and provides a unified forum for researchers/practitioners/students/policy makers to share the latest research and developments in this fast growing multi-disciplinary research area.