Abstract
The S protein of SARS-CoV-2 is a type I membrane protein that mediates membrane fusion and viral entry. A vast amount of structural information is available for the ectodomain of S, a primary target by the host immune system, but much less is known regarding its transmembrane domain (TMD) and its membrane-proximal regions. Here, we determined the NMR structure of the S protein TMD in bicelles that closely mimic a lipid bilayer. The TMD structure is a transmembrane α-helix (TMH) trimer that assembles spontaneously in a membrane. The trimer structure shows an extensive hydrophobic core along the 3-fold axis that resembles that of a trimeric leucine/isoleucine zipper, but with tetrad, not heptad, repeats. The trimeric core is strong in bicelles, resisting hydrogen–deuterium exchange for weeks. Although highly stable, structural guided mutagenesis identified single mutations that can completely dissociate the TMD trimer. Multiple studies have shown that the membrane anchors of viral fusion proteins can form highly specific oligomers, but the exact function of these oligomers remains unclear. Our findings should guide future experiments to address the above question for SARS coronaviruses.
Highlights
The S protein of SARS-CoV-2 is a type I membrane protein that mediates membrane fusion and viral entry
The SARS-CoV-2 virion is decorated with a large number of membrane-anchored spike proteins (S) responsible for target recognition, membrane fusion, and virus entry;[1,2] it is the dominant antigen on the virion surface used for vaccine development.[3]
One study showed that swapping the transmembrane domain (TMD) of SARS-CoV S with that of vesicular stomatitis virus (VSV) G protein resulted in 3−25% activity compared to the wild type.[6]
Summary
The S protein of SARS-CoV-2 is a type I membrane protein that mediates membrane fusion and viral entry. Previous studies on SARS-CoV, suggest that the S TMD has important functional roles other than membrane anchoring.
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