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| Hauptseite > Publikationsdatenbank > Class I Hydrophobin Vmh2 Adopts Atypical Mechanisms to Self-Assemble into Functional Amyloid Fibrils |
| Hauptseite > Publikationsdatenbank > Class I Hydrophobin Vmh2 Adopts Atypical Mechanisms to Self-Assemble into Functional Amyloid Fibrils |
| Journal Article | FZJ-2016-06274 |
; ; ; ; ; ; ;
2016
American Chemical Soc.
Columbus, Ohio
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Please use a persistent id in citations: doi:10.1021/acs.biomac.5b01632
Abstract: Hydrophobins are fungal proteins whose functions are mainly based on their capability to self-assemble into amphiphilic films at hydrophobic–hydrophilic interfaces (HHI). It is widely accepted that class I hydrophobins form amyloid-like structures, named rodlets, which are hundreds of nanometers long, packed into ordered lateral assemblies and do not exhibit an overall helical structure. We studied the self-assembly of the Class I hydrophobin Vmh2 from Pleurotus ostreatus in aqueous solutions by dynamic light scattering (DLS), thioflavin T (ThT), fluorescence assay, circular dichroism (CD), cryogenic trasmission electron microscopy (cryo-TEM), and TEM. Vmh2 does not form fibrillar aggregates at HHI. It exhibits spherical and fibrillar assemblies whose ratio depends on the protein concentration when freshly solubilized at pH ≥ 7. Moreover, it spontaneously self-assembles into isolated, micrometer long, and twisted amyloid fibrils, observed for the first time in fungal hydrophobins. This process is promoted by acidic pH, temperature, and Ca2+ ions. A model of self-assembly into amyloid-like structures has been proposed.
Keyword(s): Health and Life (1st) ; Soft Condensed Matter (2nd) ; Condensed Matter Physics (2nd) ; Chemistry (2nd) ; Biology (2nd)
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