Identifying the dynamic gene regulatory network during latent HIV-1 reactivation using high-dimensional ordinary differential equations.

Q4 Pharmacology, Toxicology and Pharmaceutics
Jaejoon Song, Michelle Carey, Hongjian Zhu, Hongyu Miao, Juan Camilo Ramírez, Hulin Wu
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引用次数: 1

Abstract

Reactivation of latently infected cells has emerged as an important strategy for eradication of HIV. However, genetic mechanisms of regulation after reactivation remain unclear. We describe a five-step pipeline to study the dynamics of the gene regulatory network following a viral reactivation using high-dimensional ordinary differential equations. Our pipeline implements a combination of five different methods, by detecting temporally differentially expressed genes (step 1), clustering genes with similar temporal expression patterns into a small number of response modules (step2), performing a functional enrichment analysis within each gene response module (step 3), identifying a network structure based on the gene response modules using ordinary differential equations (ODE) and a high-dimensional variable selection technique (step 4), and obtaining a gene regulatory model based on refined parameter estimates using nonlinear least squares (step 5). We applied our pipeline to a time course gene expression data of latently infected T-cells following a latency-reversion.

Abstract Image

Abstract Image

Abstract Image

利用高维常微分方程识别潜伏HIV-1再激活过程中的动态基因调控网络。
重新激活潜伏感染的细胞已成为根除艾滋病毒的重要策略。然而,重新激活后的遗传调控机制仍不清楚。我们用高维常微分方程描述了一个五步管道来研究病毒再激活后基因调控网络的动力学。我们的管道实现了五种不同方法的组合,通过检测时间差异表达基因(步骤1),将具有相似时间表达模式的基因聚类到少数响应模块(步骤2),在每个基因响应模块内进行功能富集分析(步骤3),使用常微分方程(ODE)和高维变量选择技术确定基于基因响应模块的网络结构(步骤4),并使用非线性最小二乘法获得基于精细参数估计的基因调控模型(步骤5)。我们将我们的管道应用于潜伏感染的t细胞在潜伏期逆转后的时间过程基因表达数据。
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来源期刊
International Journal of Computational Biology and Drug Design
International Journal of Computational Biology and Drug Design Pharmacology, Toxicology and Pharmaceutics-Drug Discovery
CiteScore
1.00
自引率
0.00%
发文量
8
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