Compartmentalization-Aided Interaction Screening Reveals Extensive High-Order Complexes within the SARS-CoV-2 Proteome

Published: 9 July 2021| Version 1 | DOI: 10.17632/gtswbcb5nv.1
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Description

Bearing a relatively large single-stranded RNA genome in nature, SARS-CoV-2 utilizes sophisticated replication/transcription complexes (RTCs), mainly composed of a network of nonstructural proteins and nucleocapsid protein, to establish efficient infection. Here, we develop an innovative interaction screening strategy based on phase separation in cellulo, namely compartmentalization of protein-protein interactions in cells (CoPIC). Utilizing CoPIC screening, we map the interaction network among RTC-related viral proteins. We identify a total of 47 binary interactions among 14 proteins governing replication, discontinuous transcription, and translation of coronaviruses. Further exploration via CoPIC leads to the discovery of extensive ternary complexes composed of these components, which infer potential higher-order complexes. Taken together, our results present an efficient, and robust interaction screening strategy, and indicate the existence of a complex interaction network among RTC-related factors, thus opening up opportunities to understand SARS-CoV-2 biology and develop therapeutic interventions for COVID-19. The uploaded files are raw data of microscopy images in this paper.

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Institutions

Tsinghua University

Categories

Screening, Protein-Protein Interaction Networks, New Technology, Severe Acute Respiratory Syndrome Coronavirus 2

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