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The intrinsically disordered SARS-CoV-2 nucleoprotein in dynamic complex with its viral partner nsp3a

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Bessa, Luiza Mamigonian | Guseva, Serafima | Camacho-Zarco, Aldo | Salvi, Nicola | Maurin, Damien | Perez, Laura Mariño | Botova, Maiia | Malki, Anas | Nanao, Max | Jensen, Malene Ringkjøbing | Ruigrok, Rob | Blackledge, Martin

Edité par CCSD ; American Association for the Advancement of Science (AAAS) -

International audience. The processes of genome replication and transcription of SARS-CoV-2 represent important targets for viral inhibition. Betacoronaviral nucleoprotein (N) is a highly dynamic cofactor of the replication-transcription complex (RTC), whose function depends on an essential interaction with the amino-terminal ubiquitin-like domain of nsp3 (Ubl1). Here, we describe this complex (dissociation constant - 30 to 200 nM) at atomic resolution. The interaction implicates two linear motifs in the intrinsically disordered linker domain (N3), a hydrophobic helix ((219)LALLLLDRLNQL(230)) and a disordered polar strand ((243)GQTVTKKSAAEAS(255)), that mutually engage to form a bipartite interaction, folding N3 around Ubl1. This results in substantial collapse in the dimensions of dimeric N, forming a highly compact molecular chaperone, that regulates binding to RNA, suggesting a key role of nsp3 in the association of N to the RTC. The identification of distinct linear motifs that mediate an important interaction between essential viral factors provides future targets for development of innovative strategies against COVID-19.

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