AbstractDelineating the nanoscale properties and the dynamic assembly and disassembly behaviors of amyloid fibrils is key for technological applications that use the material properties of amyloid fibrils, as well as for developing treatments of amyloid-associated disease. However, quantitative mechanistic understanding of the complex processes involving these heterogeneous supramolecular systems presents challenges that have yet to be resolved. Here, we develop an approach that is capable of resolving the time dependence of fibril particle concentration, length distribution, and length and position dependence of fibril fragmentation rates using a generic mathematical framework combined with experimental data derived from atomic force micro...
The aggregation of proteins into fibrillar structures called amyloid is a characteristic of many dis...
Understanding the mechanism of amyloid fibril breakage is of fundamental importance in various resea...
Aggregation of amyloidogenic proteins into insoluble amyloid fibrils is implicated in various neurod...
AbstractDelineating the nanoscale properties and the dynamic assembly and disassembly behaviors of a...
Delineating the nanoscale properties and the dynamic assembly and disassembly behaviors of amyloid f...
Amyloid fibrils are proteinaceous nano-scale linear aggregates. They are of key interest not only be...
International audienceThe division of amyloid protein fibrils is required for the propagation of the...
Amyloid fibrils spontaneously formed by the aggregation of a diverse class of polypeptides and prote...
High resolution atomic force microscopy is a powerful tool to characterize nanoscale morphological f...
The irreversible aggregation of fibrils formed from various proteins is associated with such disease...
The division of amyloid protein fibrils is required for the propagation of the amyloid state and is ...
AbstractHigh resolution atomic force microscopy is a powerful tool to characterize nanoscale morphol...
High resolution atomic force microscopy is a powerful tool to characterize nanoscale morphological f...
AbstractBased on atomic force microscopy analysis of the morphology of fibrillar species formed duri...
The division of amyloid protein fibrils is required for the propagation of the amyloid state, and is...
The aggregation of proteins into fibrillar structures called amyloid is a characteristic of many dis...
Understanding the mechanism of amyloid fibril breakage is of fundamental importance in various resea...
Aggregation of amyloidogenic proteins into insoluble amyloid fibrils is implicated in various neurod...
AbstractDelineating the nanoscale properties and the dynamic assembly and disassembly behaviors of a...
Delineating the nanoscale properties and the dynamic assembly and disassembly behaviors of amyloid f...
Amyloid fibrils are proteinaceous nano-scale linear aggregates. They are of key interest not only be...
International audienceThe division of amyloid protein fibrils is required for the propagation of the...
Amyloid fibrils spontaneously formed by the aggregation of a diverse class of polypeptides and prote...
High resolution atomic force microscopy is a powerful tool to characterize nanoscale morphological f...
The irreversible aggregation of fibrils formed from various proteins is associated with such disease...
The division of amyloid protein fibrils is required for the propagation of the amyloid state and is ...
AbstractHigh resolution atomic force microscopy is a powerful tool to characterize nanoscale morphol...
High resolution atomic force microscopy is a powerful tool to characterize nanoscale morphological f...
AbstractBased on atomic force microscopy analysis of the morphology of fibrillar species formed duri...
The division of amyloid protein fibrils is required for the propagation of the amyloid state, and is...
The aggregation of proteins into fibrillar structures called amyloid is a characteristic of many dis...
Understanding the mechanism of amyloid fibril breakage is of fundamental importance in various resea...
Aggregation of amyloidogenic proteins into insoluble amyloid fibrils is implicated in various neurod...