Integrating network motifs into a genetic network: A case of study based on the Phop/PhoQ two-component system

2011 11th International Conference on Intelligent Systems Design and Applications Pub Date : 2011-11-01 DOI:10.1109/ISDA.2011.6121851

O. Harari, C. Val, I. Zwir

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Abstract

Genetic and genomic approaches have been successfully employed to assign genes to distinct regulatory networks. The strength of the connections in these networks must be specified to define the kinetics of a group of genes, but the uncertainty concerning the connections between genes, the ambiguity inherent to the biological processes, and the impossibility of experimentally determining the underlying biological properties only allow a rough prediction of gene interaction. Here we describe a framework that examines promoter sequences and identifies those cis-acting features that define transcriptional network motifs. Then, we employ an iterative process, based on Ordinary Differential Equations, to learn a network architecture that appropriately integrates these motifs into a full structure. The application of this method to the two component systems PhoP/PhoQ and the PmrA/PmrB in Salmonella enterica uncovered novel mechanisms that enable the inter-connection of these networks. The predictions were experimentally verified.

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将网络基序整合到遗传网络中:基于Phop/PhoQ双组分系统的案例研究

遗传学和基因组学的方法已经成功地将基因分配到不同的调控网络。为了定义一组基因的动力学，必须指定这些网络中连接的强度，但是基因之间连接的不确定性，生物过程固有的模糊性，以及实验确定潜在生物学特性的不可能性，只能对基因相互作用进行粗略的预测。在这里，我们描述了一个框架，检查启动子序列和识别那些定义转录网络基序的顺式作用特征。然后，我们采用迭代过程，基于常微分方程，学习网络架构，适当地将这些主题集成到一个完整的结构中。将该方法应用于肠道沙门氏菌的PhoP/PhoQ和PmrA/PmrB两组分系统，揭示了这些网络相互连接的新机制。这些预测得到了实验的证实。

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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2011 11th International Conference on Intelligent Systems Design and Applications

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