Structure based prediction of the interactome
Massachusetts Institute Of Technology, Cambridge MA
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): Molecular interactions play a central role in all biological processes. Akin to the complete sequencing of genomes, complete descriptions of interactomes is a fundamental step towards a deeper understanding of biological processes, and has a vast potential to impact systems biology, genomics, molecular biology and therapeutics. Protein-protein interactions (PPIs) and protein-RNA interactions (PRIs) are of particular interest as they are critical in maintenance of cellular integrity, metabolism, transcription/translation, and cell-cell communication. Although high-throughput experimental PPI and PRI data is rapidly accumulating, building complete and confident datasets requires multiple replicates of expensive screens. This proposal aims to develop new methods that will significantly advance our efforts at structure-based approaches to better predict PPIs and RPIs and boost confidence in emerging high-throughput (HTP) data with the goal of comprehensive interactome mapping at lower cost. Taken together, these methods will vastly expand our understanding of macromolecular networks. We will continue to devise structure-based methods for protein-protein interaction prediction and branch out to methods for protein-RNA interaction prediction; this represents a major shift from the purely sequence-based approaches that most bioinformatics approaches utilize to predict We will also build computational frameworks for boosting confidence in HTP protein-protein and protein-RNA interaction datasets using structure-based approaches; these frameworks will provide a comprehensive assessment of in-house and public HTP data, with potential biomedical applications such as heat shock protein-kinase interactions related to development for cancer therapeutics, MAPK6's role in a cancer-related signaling network, and (long non-coding) RNA-protein binding roles in neurodegenerative disease. Finally, we will computationally screen for PPIs and PRIs at the genome scale and expand our Struct2Net webserver to disseminate tools based on our methods and results to the community. An increasing number of HTP interaction datasets are being determined, thus presenting new opportunities to leverage this data in conjunction with structural insights to map binding sites and to uncover the underlying molecular mechanisms of cellular functions. molecular interactions and will enhance coverage and accuracy of the complete interactome. Successful completion of these aims will result in computational methods that will significantly increase our confidence in high-throughput data on protein-protein and protein-RNA interactions and will reveal fundamental aspects of their functioning, as well as testable hypotheses for experimental investigations. All developed software will be made publicly available.
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