Coronavirus disease 2019 (COVID-19) is an on-going pandemic disease infecting millions of people across the globe. Recent reports of reduction in antibody levels and the re-emergence of the disease in recovered patients necessitated the understanding of the pandemic at the core level. The cases of multiple organ failures emphasized the consideration of different organ systems while managing the disease. The present study employed RNA sequencing data to determine the disease associated differentially regulated genes and their related protein interactions in several organ systems. It signified the importance of early diagnosis and treatment of the disease. A map of protein interactions of multiple organ systems was built and uncovered CAV1 and CTNNB1 as the top degree nodes. A core interactions sub-network was analyzed to identify different modules of functional significance. AR, CTNNB1, CAV1, and PIK3R1 proteins were unfolded as bridging nodes interconnecting different modules for the information flow across several pathways. The present study also highlighted some of the druggable targets to analyze in drug re-purposing strategies against the COVID-19 pandemic. Therefore, the protein interactions map and the modular interactions of the differentially regulated genes in the multiple organ systems would incline the scientists and researchers to investigate in novel therapeutics for the COVID-19 pandemic expeditiously.
【저자키워드】 COVID-19, Gene ontology, RNA-Seq, cluster analysis, protein interaction maps, 【초록키워드】 Treatment, Coronavirus disease 2019, pandemic, antibody, COVID-19 pandemic, Protein, early diagnosis, protein interaction, target, multiple organ failure, information, Interaction, Pathways, organ systems, organ system, pandemic disease, CAV1, RNA sequencing data, researcher, infecting, recent, recovered patient, analyzed, identify, globe, the disease, functional, determine, reduction in, CTNNB1, differentially regulated gene, incline, PIK3R1, 【제목키워드】 protein interaction, disease, organ system, with COVID-19,