Author: Heald-Sargent, Taylor; Gallagher, Tom
Title: Ready, Set, Fuse! The Coronavirus Spike Protein and Acquisition of Fusion Competence Cord-id: c58hj5x4 Document date: 2012_4_12
ID: c58hj5x4
Snippet: Coronavirus-cell entry programs involve virus-cell membrane fusions mediated by viral spike (S) proteins. Coronavirus S proteins acquire membrane fusion competence by receptor interactions, proteolysis, and acidification in endosomes. This review describes our current understanding of the S proteins, their interactions with and their responses to these entry triggers. We focus on receptors and proteases in prompting entry and highlight the type II transmembrane serine proteases (TTSPs) known to
Document: Coronavirus-cell entry programs involve virus-cell membrane fusions mediated by viral spike (S) proteins. Coronavirus S proteins acquire membrane fusion competence by receptor interactions, proteolysis, and acidification in endosomes. This review describes our current understanding of the S proteins, their interactions with and their responses to these entry triggers. We focus on receptors and proteases in prompting entry and highlight the type II transmembrane serine proteases (TTSPs) known to activate several virus fusion proteins. These and other proteases are essential cofactors permitting coronavirus infection, conceivably being in proximity to cell-surface receptors and thus poised to split entering spike proteins into the fragments that refold to mediate membrane fusion. The review concludes by noting how understanding of coronavirus entry informs antiviral therapies.
Search related documents:
Co phrase search for related documents- acid exposure and acute infection: 1
- acid ph dependent and acute infection: 1
- active site and acute infection: 1, 2, 3, 4, 5, 6
Co phrase search for related documents, hyperlinks ordered by date