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Recently Designed Multivalent Spike Binders Cannot Bind Multivalently─How Do They Achieve Enhanced Avidity to SARS-CoV-2?
Abstract
The trimeric spike protein of SARS-CoV-2 has been targeted by antibody mimics that
bind near or at the receptor-binding domain to neutralize the virus. Several independent
studies have reported enhanced binding avidity for dimers and trimers, where binding
domains are connected by short peptides. The enhanced avidity of the multivalent constructs
was attributed to their simultaneously binding two or three sites within a single
spike trimer. We argue here that the 15-20 amino acid peptide linkers, when considered
as worm-like-chains, are too short to span the binding sites within a single spike.
The enhanced avidity of the multivalent constructs may be explained by a rebinding
mechanism, which does not involve multivalent binding.
Type
Journal articlePermalink
https://hdl.handle.net/10161/25685Published Version (Please cite this version)
10.1021/acs.biochem.2c00291Publication Info
(2022). Recently Designed Multivalent Spike Binders Cannot Bind Multivalently─How Do They
Achieve Enhanced Avidity to SARS-CoV-2?. Biochemistry. 10.1021/acs.biochem.2c00291. Retrieved from https://hdl.handle.net/10161/25685.This is constructed from limited available data and may be imprecise. To cite this
article, please review & use the official citation provided by the journal.
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Show full item recordScholars@Duke
Harold Paul Erickson
James B. Duke Distinguished Professor Emeritus
Recent research has been on cytoskeleton (eukaryotes and bacteria); a skirmish to
debunk the irisin story; a reinterpretation of proposed multivalent binders of the
coronavirus spike protein. I have also published an ebook on "Principles of Protein-Protein
Association" suitable for a course module or individual learning.
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