Author: Koppisetti, Rama K.; Fulcher, Yan G.; Van Doren, Steven R.
Title: Fusion Peptide of SARS-CoV-2 Spike Rearranges into a Wedge Inserted in Bilayered Micelles Cord-id: 4qes3xq1 Document date: 2021_8_10
ID: 4qes3xq1
Snippet: [Image: see text] The receptor binding and proteolysis of Spike of SARS-CoV-2 release its S(2) subunit to rearrange and catalyze viral-cell fusion. This deploys the fusion peptide for insertion into the cell membranes targeted. We show that this fusion peptide transforms from intrinsic disorder in solution into a wedge-shaped structure inserted in bilayered micelles, according to chemical shifts, (15)N NMR relaxation, and NOEs. The globular fold of three helices contrasts the open, extended form
Document: [Image: see text] The receptor binding and proteolysis of Spike of SARS-CoV-2 release its S(2) subunit to rearrange and catalyze viral-cell fusion. This deploys the fusion peptide for insertion into the cell membranes targeted. We show that this fusion peptide transforms from intrinsic disorder in solution into a wedge-shaped structure inserted in bilayered micelles, according to chemical shifts, (15)N NMR relaxation, and NOEs. The globular fold of three helices contrasts the open, extended forms of this region observed in the electron density of compact prefusion states. In the hydrophobic, narrow end of the wedge, helices 1 and 2 contact the fatty acyl chains of phospholipids, according to NOEs and proximity to a nitroxide spin label deep in the membrane mimic. The polar end of the wedge may engage and displace lipid head groups and bind Ca(2+) ions for membrane fusion. Polar helix 3 protrudes from the bilayer where it might be accessible to antibodies.
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