Combining gene expression data and prior knowledge for inferring gene regulatory networks via Bayesian networks using structural restrictions.

IF 0.9 4区 数学 Q3 Mathematics
Luis M de Campos, Andrés Cano, Javier G Castellano, Serafín Moral
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引用次数: 6

Abstract

Gene Regulatory Networks (GRNs) are known as the most adequate instrument to provide a clear insight and understanding of the cellular systems. One of the most successful techniques to reconstruct GRNs using gene expression data is Bayesian networks (BN) which have proven to be an ideal approach for heterogeneous data integration in the learning process. Nevertheless, the incorporation of prior knowledge has been achieved by using prior beliefs or by using networks as a starting point in the search process. In this work, the utilization of different kinds of structural restrictions within algorithms for learning BNs from gene expression data is considered. These restrictions will codify prior knowledge, in such a way that a BN should satisfy them. Therefore, one aim of this work is to make a detailed review on the use of prior knowledge and gene expression data to inferring GRNs from BNs, but the major purpose in this paper is to research whether the structural learning algorithms for BNs from expression data can achieve better outcomes exploiting this prior knowledge with the use of structural restrictions. In the experimental study, it is shown that this new way to incorporate prior knowledge leads us to achieve better reverse-engineered networks.

结合基因表达数据和先验知识,利用结构限制通过贝叶斯网络推断基因调控网络。
基因调控网络(grn)被认为是提供细胞系统清晰见解和理解的最充分的工具。利用基因表达数据重构grn的最成功技术之一是贝叶斯网络(BN),它已被证明是学习过程中异构数据集成的理想方法。然而,通过使用先验信念或使用网络作为搜索过程的起点,已经实现了对先验知识的整合。在这项工作中,利用不同类型的结构限制算法从基因表达数据中学习生物神经网络。这些限制将编纂先验知识,以这样一种方式,BN应该满足它们。因此,本研究的目的之一是详细回顾使用先验知识和基因表达数据从bp中推断grn,但本文的主要目的是研究从表达数据中提取bp的结构学习算法是否可以利用这些先验知识并使用结构限制来获得更好的结果。实验研究表明,这种结合先验知识的新方法可以使我们获得更好的反向工程网络。
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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来源期刊
CiteScore
1.20
自引率
11.10%
发文量
8
审稿时长
6-12 weeks
期刊介绍: Statistical Applications in Genetics and Molecular Biology seeks to publish significant research on the application of statistical ideas to problems arising from computational biology. The focus of the papers should be on the relevant statistical issues but should contain a succinct description of the relevant biological problem being considered. The range of topics is wide and will include topics such as linkage mapping, association studies, gene finding and sequence alignment, protein structure prediction, design and analysis of microarray data, molecular evolution and phylogenetic trees, DNA topology, and data base search strategies. Both original research and review articles will be warmly received.
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