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Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus
Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus
by Banik, Steven M. , Webster, Elizabeth R. , Boxer, Steven G. , Delaveris, Corleone S. , Bertozzi, Carolyn R.
in Binding / Biological Sciences / Biophysics and Computational Biology / Chemical control / Chemistry / Coated vesicles / Density / Glycocalyx - chemistry / Glycocalyx - virology / Glycosylation / Influenza / Influenza A / Influenza A virus - physiology / Kinetics / Lipid bilayers / Lipid Bilayers - chemistry / Lipids / Membranes / Mucin / Mucins / Mucins - chemistry / Mucins - metabolism / N-Acetylneuraminic Acid - chemistry / N-Acetylneuraminic Acid - metabolism / Pathogenesis / Peptides - chemistry / Peptides - metabolism / Physical Sciences / Polypeptides / Protein Conformation / Sialic acids / Virions / Virus Internalization / Viruses
2020
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Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus
by Banik, Steven M. , Webster, Elizabeth R. , Boxer, Steven G. , Delaveris, Corleone S. , Bertozzi, Carolyn R.
in Binding / Biological Sciences / Biophysics and Computational Biology / Chemical control / Chemistry / Coated vesicles / Density / Glycocalyx - chemistry / Glycocalyx - virology / Glycosylation / Influenza / Influenza A / Influenza A virus - physiology / Kinetics / Lipid bilayers / Lipid Bilayers - chemistry / Lipids / Membranes / Mucin / Mucins / Mucins - chemistry / Mucins - metabolism / N-Acetylneuraminic Acid - chemistry / N-Acetylneuraminic Acid - metabolism / Pathogenesis / Peptides - chemistry / Peptides - metabolism / Physical Sciences / Polypeptides / Protein Conformation / Sialic acids / Virions / Virus Internalization / Viruses
2020
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Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus
Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus
by Banik, Steven M. , Webster, Elizabeth R. , Boxer, Steven G. , Delaveris, Corleone S. , Bertozzi, Carolyn R.
in Binding / Biological Sciences / Biophysics and Computational Biology / Chemical control / Chemistry / Coated vesicles / Density / Glycocalyx - chemistry / Glycocalyx - virology / Glycosylation / Influenza / Influenza A / Influenza A virus - physiology / Kinetics / Lipid bilayers / Lipid Bilayers - chemistry / Lipids / Membranes / Mucin / Mucins / Mucins - chemistry / Mucins - metabolism / N-Acetylneuraminic Acid - chemistry / N-Acetylneuraminic Acid - metabolism / Pathogenesis / Peptides - chemistry / Peptides - metabolism / Physical Sciences / Polypeptides / Protein Conformation / Sialic acids / Virions / Virus Internalization / Viruses
2020

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Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus
Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus
Journal Article

Membrane-tethered mucin-like polypeptides sterically inhibit binding and slow fusion kinetics of influenza A virus

Banik, Steven M.,
Webster, Elizabeth R.,
Boxer, Steven G.,
Delaveris, Corleone S.,
Bertozzi, Carolyn R.
2020
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Overview
The mechanism(s) by which cell-tethered mucins modulate infection by influenza A viruses (IAVs) remain an open question. Mucins form both a protective barrier that can block virus binding and recruit IAVs to bind cells via the sialic acids of cell-tethered mucins. To elucidate the molecular role of mucins in flu pathogenesis, we constructed a synthetic glycocalyx to investigate membranetethered mucins in the context of IAV binding and fusion. We designed and synthesized lipid-tethered glycopolypeptide mimics of mucins and added them to lipid bilayers, allowing chemical control of length, glycosylation, and surface density of a model glycocalyx. We observed that the mucin mimics undergo a conformational change at high surface densities from a compact to an extended architecture. At high surface densities, asialo mucin mimics inhibited IAV binding to underlying glycolipid receptors, and this density correlated to the mucin mimic’s conformational transition. Using a single virus fusion assay, we observed that while fusion of virions bound to vesicles coated with sialylated mucin mimics was possible, the kinetics of fusion was slowed in a mucin density-dependent manner. These data provide a molecular model for a protective mechanism by mucins in IAV infection, and therefore this synthetic glycocalyx provides a useful reductionist model for studying the complex interface of host–pathogen interactions.
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Publisher
National Academy of Sciences
Subject

Binding

/ Biological Sciences

/ Biophysics and Computational Biology

/ Chemical control

/ Chemistry

/ Coated vesicles

/ Density

/ Glycocalyx - chemistry

/ Glycocalyx - virology

/ Glycosylation

/ Influenza

/ Influenza A

/ Influenza A virus - physiology

/ Kinetics

/ Lipid bilayers

/ Lipid Bilayers - chemistry

/ Lipids

/ Membranes

/ Mucin

/ Mucins

/ Mucins - chemistry

/ Mucins - metabolism

/ N-Acetylneuraminic Acid - chemistry

/ N-Acetylneuraminic Acid - metabolism

/ Pathogenesis

/ Peptides - chemistry

/ Peptides - metabolism

/ Physical Sciences

/ Polypeptides

/ Protein Conformation

/ Sialic acids

/ Virions

/ Virus Internalization

/ Viruses

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