During the pandemic it has been observed that individuals react very differently to be infected by the virus and to the vaccination. A few individuals obtain very strong protection against the wild type (the original
The uniqueness of this paper is the combination of many different technologies and that the studies have been performed at experimentally challenging but physiologically more relevant conditions than previously published results. For instance, have the effect of glycosylation of the spike mutations and the importance of the dynamics of the interaction been included. Overall, this resulted in that the antibodies from convalescent individuals could be divided into weak, moderate, and strong neutralizers.
Attana QCM technology has been applied to study the interaction kinetics of the different antibodies. High affinity binding in the sub-nM range with slow dissociation rates were observed. The association-dissociation kinetics clearly indicate stable binding of the antibodies to the Spike trimer. In the neutralization experiments the highest neutralization was observed for the two antibodies CoVA2-39 and 5A6. These two antibodies have the fastest association rate, being 1.25*106mol/s and 1.18*106mol/s respectively.
Association rates in the magnitude of 106mol/s has in several previous studies using
Attana QCM kinetic evaluation of the interactions between Spike and SARS CoV-2 antibodies
https://news.cision.com/attana/r/a-new-publication-using-attana-technology-from-national-university-of-singapore-examining-the-neutra,c3878987
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