Journal
ACS NANO
Volume 8, Issue 11, Pages 11071-11079Publisher
AMER CHEMICAL SOC
DOI: 10.1021/nn504249x
Keywords
beta-lactoglobulin; amyloid fibrils; biopolymers; interfaces; bending; statistical analysis; atomic force microscopy
Categories
Funding
- Electron Microscopy of ETH Zurich (EMEZ)
- ETH Zurich [ETHIIRA TH 32-1]
- SNF [2-77002-11]
- SNSF visiting fellowship [IZK072_141955]
- SNSF [PP00P2_144646/1, PZ00P2_142532/1]
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Protein fibril accumulation at interfaces is an important step in many physiological processes and neurodegenerative diseases as well as in designing materials. Here we show, using b-lactoglobulin fibrils as a model, that semiflexible fibrils exposed to a surface do not possess the Gaussian distribution of curvatures characteristic for wormlike chains, but instead exhibit a spontaneous curvature, which can even lead to ring-like conformations. The long-lived presence of such rings is confirmed by atomic force microscopy, cryogenic scanning electron microscopy, and passive probe particle tracking at air and oilwater interfaces. We reason that this spontaneous curvature is governed by structural characteristics on the molecular level and is to be expected when a chiral and polar fibril is placed in an inhomogeneous environment such as an interface. By testing beta-lactoglobulin fibrils with varying average thicknesses, we conclude that fibril thickness plays a determining role in the propensity to form rings.
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