標題: Reconstructing Genome-Wide Protein-Protein Interaction Networks Using Multiple Strategies with Homologous Mapping
作者: Lo, Yu-Shu
Huang, Sing-Han
Luo, Yong-Chun
Lin, Chun-Yu
Yang, Jinn-Moon
生物科技學系
生物資訊及系統生物研究所
生物資訊研究中心
Department of Biological Science and Technology
Institude of Bioinformatics and Systems Biology
Center for Bioinformatics Research
公開日期: 20-一月-2015
摘要: Background One of the crucial steps toward understanding the biological functions of a cellular system is to investigate protein-protein interaction (PPI) networks. As an increasing number of reliable PPIs become available, there is a growing need for discovering PPIs to reconstruct PPI networks of interesting organisms. Some interolog-based methods and homologous PPI families have been proposed for predicting PPIs from the known PPIs of source organisms. Results Here, we propose a multiple-strategy scoring method to identify reliable PPIs for reconstructing the mouse PPI network from two well-known organisms: human and fly. We firstly identified the PPI candidates of target organisms based on homologous PPIs, sharing significant sequence similarities (joint E-value <= 1 x 10(-40)), from source organisms using generalized interolog mapping. These PPI candidates were evaluated by our multiple-strategy scoring method, combining sequence similarities, normalized ranks, and conservation scores across multiple organisms. According to 106,825 PPI candidates in yeast derived from human and fly, our scoring method can achieve high prediction accuracy and outperform generalized interolog mapping. Experiment results show that our multiple-strategy score can avoid the influence of the protein family size and length to significantly improve PPI prediction accuracy and reflect the biological functions. In addition, the top-ranked and conserved PPIs are often orthologous/ essential interactions and share the functional similarity. Based on these reliable predicted PPIs, we reconstructed a comprehensive mouse PPI network, which is a scale-free network and can reflect the biological functions and high connectivity of 292 KEGG modules, including 216 pathways and 76 structural complexes. Conclusions Experimental results show that our scoring method can improve the predicting accuracy based on the normalized rank and evolutionary conservation from multiple organisms. Our predicted PPIs share similar biological processes and cellular components, and the reconstructed genome-wide PPI network can reflect network topology and modularity. We believe that our method is useful for inferring reliable PPIs and reconstructing a comprehensive PPI network of an interesting organism.
URI: http://dx.doi.org/10.1371/journal.pone.0116347
http://hdl.handle.net/11536/124205
ISSN: 1932-6203
DOI: 10.1371/journal.pone.0116347
期刊: PLOS ONE
Volume: 10
Issue: 1
起始頁: 0
結束頁: 0
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