基于Markov聚类的蛋白质相互作用网络的比较分析

Marco Mina, P. Guzzi
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引用次数: 43

摘要

通过对生物网络的进化分析和比较,可以确定物种之间的保守机制以及蛋白质复合物和通路等保守模块。遵循整体哲学,最近提出了几种算法,称为网络比对算法,作为序列和结构比对算法的对应,以在相互作用体水平上揭示不同物种之间的关系。在这项工作中,我们提出了AlignMCL,一种局部对齐算法,用于识别不同物种的保守子网络。与许多其他现有工具一样,AlignMCL基于将许多蛋白质相互作用网络合并到单个比对图中,然后挖掘它以识别潜在的保守子网络的想法。为了评估AlignMCL,我们在一个相当广泛和更新的数据集上将其与最先进的本地对齐算法进行了比较。最后,为了提高我们的工具的可用性,我们开发了一个Cytoscape插件AlignMCL,它为MCL引擎提供了一个图形用户界面。
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AlignMCL: Comparative analysis of protein interaction networks through Markov clustering
Evolutionary analysis and comparison of biological networks may result in the identification of conserved mechanism between species as well as conserved modules, such as protein complexes and pathways. Following an holistic philosophy several algorithms, known as network alignment algorithms, have been proposed recently as counterpart of sequence and structure alignment algorithms, to unravel relations between different species at the interactome level. In this work we present AlignMCL, a local alignment algorithm for the identification of conserved subnetworks in different species. As many other existing tools, AlignMCL is based on the idea of merging many protein interaction networks in a single alignment graph and subsequently mining it to identify potentially conserved subnetworks. In order to asses AlignMCL we compared it to the state of the art local alignment algorithms over a rather extensive and updated dataset. Finally, to improve the usability of our tool we developed a Cytoscape plugin, AlignMCL, that offers a graphical user interface to an MCL engine.
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