TY - JOUR T1 - Statistical properties of the MetaCore network of protein-protein interactions JF - bioRxiv DO - 10.1101/2021.04.02.438245 SP - 2021.04.02.438245 AU - Ekaterina Kotelnikova AU - Klaus M. Frahm AU - José Lages AU - Dima L Shepelyansky Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/04/04/2021.04.02.438245.abstract N2 - The MetaCore commercial database describes interactions of proteins and other chemical molecules and clusters in the form of directed network between these elements, viewed as nodes. The number of nodes goes beyond 40 thousands with almost 300 thousands links between them. The links have essentially bi-functional nature describing either activation or inhibition actions between proteins. We present here the analysis of statistical properties of this complex network applying the methods of the Google matrix, PageRank and CheiRank algorithms broadly used in the frame of the World Wide Web, Wikipedia, the world trade and other directed networks. We specifically describe the Ising PageRank approach which allows to treat the bi-functional type of protein-protein interactions. We also show that the developed reduced Google matrix algorithm allows to obtain an effective network of interactions inside a specific group of selected proteins. This method takes into account not only direct protein-protein interactions but also recover their indirect nontrivial couplings appearing due to summation over all the pathways passing via the global bi-functional network. The developed analysis allows to espablish an average action of each protein being more oriented to activation or inhibition. We argue that the described Google matrix analysis represents an efficient tool for investigation of influence of specific groups of proteins related to specific diseases.Competing Interest StatementThe authors have declared no competing interest.PPIprotein-protein interactionsGMAGoogle matrix analysisIGMAIsing Google matrix analysisRGMAreduced Google matrix analysisRIGMAreduced Ising Google matrix analysisWWWWorld Wide Web ER -