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Forces during cellular uptake of viruses and nanoparticles at the ventral side.

Nature Communications. 2020; 
Wiegand T,,, Fratini M,,,,, Frey F,0, Yserentant K,, Liu Y,, Weber E,,, Galior K,, Ohmes J,,, Braun F,, Herten DP,,, Boulant S,, Schwarz US,0, Salaita K, Cavalcanti-Adam EA,, Spatz JP,0.
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Polyclonal Antibody Services Cells were fixed with 4% (w/v) paraformaldehyde in PBS for 20 min Samples were washed twice in PBS and for membrane permeabilization cells were treated with 0.5% (v/v) Triton X-100 for 10 min Virus factories were detected with an antibody against the non-structural reovirus μNS protein (anti μNS rabbit IgG, 1:200, generated by GenScript, USA) and secondary antibody Alexa Fluor 488 goat anti-rabbit IgG Get A Quote

摘要

Many intracellular pathogens, such as mammalian reovirus, mimic extracellular matrix motifs to specifically interact with the host membrane. Whether and how cell-matrix interactions influence virus particle uptake is unknown, as it is usually studied from the dorsal side. Here we show that the forces exerted at the ventral side of adherent cells during reovirus uptake exceed the binding strength of biotin-neutravidin anchoring viruses to a biofunctionalized substrate. Analysis of virus dissociation kinetics using the Bell model revealed mean forces higher than 30 pN per virus, preferentially applied in the cell periphery where close matrix contacts form. Utilizing 100 nm-sized nanoparticles decorated with i... More

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