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      Understanding amyloid aggregation by statistical analysis of atomic force microscopy images.

      Nature nanotechnology
      Amyloid, chemistry, ultrastructure, Animals, Cattle, Lactoglobulins, Microscopy, Atomic Force, methods, Models, Statistical, Nanostructures, Protein Denaturation, Protein Multimerization

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          Abstract

          The aggregation of proteins is central to many aspects of daily life, including food processing, blood coagulation, eye cataract formation disease and prion-related neurodegenerative infections. However, the physical mechanisms responsible for amyloidosis-the irreversible fibril formation of various proteins that is linked to disorders such as Alzheimer's, Creutzfeldt-Jakob and Huntington's diseases-have not yet been fully elucidated. Here, we show that different stages of amyloid aggregation can be examined by performing a statistical polymer physics analysis of single-molecule atomic force microscopy images of heat-denatured beta-lactoglobulin fibrils. The atomic force microscopy analysis, supported by theoretical arguments, reveals that the fibrils have a multistranded helical shape with twisted ribbon-like structures. Our results also indicate a possible general model for amyloid fibril assembly and illustrate the potential of this approach for investigating fibrillar systems.

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