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The SARS-CoV-2 spike employs mobile receptor-binding domains (RBDs) to engage the human ACE2 receptor and to facilitate virus entry, which can occur through low pH-endosomal pathways. To understand how ACE2 binding and low pH impact spike conformation, we determined cryo-EM structures –at serological and endosomal pH– delineating spike recognition of up to three ACE2 molecules. RBDs freely adopted ‘up’ conformations required for ACE2 interaction, primarily through RBD movement combined with smaller alterations in neighboring domains. In the absence of ACE2, cryo-EM structures revealed single-RBD-up conformations to dominate at pH 5.5, resolving into a solitary all-down conformation at lower pH. Notably, a pH-dependent refolding region (residues 824-858) at the spike-interdomain interface displayed dramatic structural rearrangements and mediated RBD positioning through coordinated movements of the entire trimer apex. These findings provide insight into how receptor interactions and endosomal pH alter RBD positioning and potentially facilitate immune evasion from RBD-up binding antibody.
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10.1016/j.chom.2020.11.004
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document_parses/pdf_json/a076606a6d77396558a91c6b62de7dc78628df84.json
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?:title
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Cryo-EM Structures of SARS-CoV-2 Spike without and with ACE2 Reveal a pH-Dependent Switch to Mediate Endosomal Positioning of Receptor-Binding Domains
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