PhosR enables processing and functional analysis of phosphoproteomic data
Taiyun Kim,Hani Jieun Kim The Univsersity of Sydney
Abstract
Mass spectrometry (MS)-based phosphoproteomics has revolutionized our ability to profile phosphorylation-based signaling in cells and tissues on a global scale. To infer the action of kinases and signaling pathways in phosphoproteomic experiments, we present PhosR, a set of tools and methodologies implemented in a suite of R packages facilitating comprehensive analysis of phosphoproteomic data. By applying PhosR to both published and new phosphoproteomic datasets, we demonstrate capabilities in data imputation and normalization by using a set of “stably phosphorylated sites” and in functional analysis for inferring active kinases and signaling pathways. In particular, we introduce a “signalome” construction method for identifying a collection of signaling modules to summarize and visualize the interaction of kinases and their collective actions on signal transduction. Together, our data and findings demonstrate the utility of PhosR in processing and generating biological knowledge from MS-based phosphoproteomic data.
Keywords: phosphoproteomics,signalling networks,imputation,normalisation,batch correction,stably phosphorylated sites,kinase-substrate prediction,signalomes,mass spectrometry