Computational systems-biology approaches for modeling gene networks driving epithelial–mesenchymal transitions

Ataur Katebi, Daniel Ramirez, Mingyang Lu
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引用次数: 9

Abstract

Epithelial–mesenchymal transition (EMT) is an important biological process through which epithelial cells undergo phenotypic transitions to mesenchymal cells by losing cell–cell adhesion and gaining migratory properties that cells use in embryogenesis, wound healing, and cancer metastasis. An important research topic is to identify the underlying gene regulatory networks (GRNs) governing the decision making of EMT and develop predictive models based on the GRNs. The advent of recent genomic technology, such as single-cell RNA sequencing, has opened new opportunities to improve our understanding about the dynamical controls of EMT. In this article, we review three major types of computational and mathematical approaches and methods for inferring and modeling GRNs driving EMT. We emphasize (1) the bottom-up approaches, where GRNs are constructed through literature search; (2) the top-down approaches, where GRNs are derived from genome-wide sequencing data; (3) the combined top-down and bottom-up approaches, where EMT GRNs are constructed and simulated by integrating bioinformatics and mathematical modeling. We discuss the methodologies and applications of each approach and the available resources for these studies.

Abstract Image

模拟驱动上皮-间质转化的基因网络的计算系统生物学方法
上皮-间充质转化(epithelial - mesenchymal transition, EMT)是一个重要的生物学过程,上皮细胞通过失去细胞间黏附和获得细胞在胚胎发生、伤口愈合和癌症转移中使用的迁移特性,经历表型转变为间充质细胞。一个重要的研究课题是识别控制EMT决策的潜在基因调控网络(grn),并基于grn建立预测模型。最近基因组技术的出现,如单细胞RNA测序,为提高我们对EMT动态控制的理解开辟了新的机会。在本文中,我们回顾了用于推断和建模驱动EMT的grn的三种主要类型的计算和数学方法。我们强调(1)自下而上的方法,通过文献检索构建grn;(2)自上而下的方法,其中grn来自全基因组测序数据;(3)自上而下和自下而上相结合的方法,将生物信息学和数学建模相结合,构建EMT grn并进行仿真。我们讨论了每种方法的方法和应用,以及这些研究的可用资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.80
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