Nanopatterned Polymer Surface Modulates Twist Polymorphism in a Single Amyloid Fibril

The periodic twist behaviors of amyloid fibrils initiated and formed on block copolymer films with nanoscale features are studied. The discovery of twist variations even in a single amyloid fibril is reported: the fibril can vary its twist extents in response to the underlying nanopatterned surfaces by keeping its neighboring crossover sections right above the periodic nanodomains and tuning the distance between neighboring crossover sections based on either the periodic nanodomain distance or the fibril contour direction. This nanopattern‐induced twist polymorphism arises from the fibril's two edges, exhibiting different hydrophobic interactions with the periodic nanodomains, as demonstrated by simulation studies. This work contributes to the understanding of surface effects on twist polymorphism in amyloid fibril structures that may be important to fibril polymorphism in amyloid pathologies and bioapplications of amyloid fibrils. A novel and important factor—the presence of nanopatterned polymer surface—that modulates twist variations even in a single amyloid fibril on nanoscales is highlighted, which provides an important insight toward fibril polymorphism resulting from the complicating surface effects.