Amyloid Growth, Inhibition, and Real-Time Enzymatic Degradation Revealed with Single Conical Nanopore - Université de Montpellier
Article Dans Une Revue Analytical Chemistry Année : 2018

Amyloid Growth, Inhibition, and Real-Time Enzymatic Degradation Revealed with Single Conical Nanopore

Résumé

myloid fibrils are involved in several neuro-degenerative diseases. However, because of their polymorphism and low concentration, they are challenging to assess in real-time with conventional techniques. Here, we present a new approach for the characterization of the intermediates: protofibrils and "end-off" aggregates which are produced during the amyloid formation. To do so, we have fashioned conical track-etched nanopores that are functionalized to prevent the fouling. Using these nanopores, we have followed the kinetic of amyloid growth to discriminate the different intermediates protofibrils and "end-off. Then, the nanopore was used to characterize the effect of promoter and inhibitor of the fibrillation process. Finally, we have followed in real-time the degradation of amyloid with peptase. Compare with the SiN nanopore, the track-etched one features exceptionally high success rate via functionalization and detection in "one-pot". Our results demonstrate the potential for a conical nanopore to be used as a routine technique for the characterization of the amyloid growth and/or degradation.
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Dates et versions

hal-01937530 , version 1 (28-11-2018)

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Nicoletta Giamblanco, Diego Coglitore, Alberto Gubbiotti, Tianji Ma, Emmanuel Balanzat, et al.. Amyloid Growth, Inhibition, and Real-Time Enzymatic Degradation Revealed with Single Conical Nanopore. Analytical Chemistry, 2018, 90 (21), pp.12900 - 12908. ⟨10.1021/acs.analchem.8b03523⟩. ⟨hal-01937530⟩
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