Analysis of the structure and interactions of the SARS-CoV-2 ORF7b accessory protein
Résumé
SARS-CoV-2 carries a sizeable number of proteins that are accessory to replication but may be essential for virus–host interactions and modulation of the host immune response. Here, we investigated the structure and interactions of the largely unknown ORF7b, a small membranous accessory membrane protein of SARS-CoV-2. We show that structural predictions indicate a transmembrane (TM) leucine zipper for ORF7b, and experimentally confirm the predominantly α-helical secondary structure within a phospholipid membrane mimetic by solid-state NMR. We also show that ORF7b forms heterogeneous higher-order multimers. We determined ORF7b interactions with cellular TM leucine zipper proteins using both biochemical and NMR approaches, providing evidence for ORF7b interaction with the TM domains of E-cadherin, as well as phospholamban. Our results place ORF7b as a hypothetical interferer in cellular processes that utilize leucine zipper motifs in transmembrane multimerization domains.
Domaines
Biologie structurale [q-bio.BM]
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2024_Nguyen_sars-cov-2-orf7b-accessory-protein.pdf (4.67 Mo)
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