Electrostatic Complementarity Drives Amyloid/Nucleic Acid Co‐Assembly

Proteinaceous plaques associated with neurodegenerative diseases contain many biopolymers including the polyanions glycosaminoglycans and nucleic acids. Polyanion‐induced amyloid fibrillation has been implicated in disease etiology, but structural models for amyloid/nucleic acid co‐assemblies remain limited. Here we constrain nucleic acid/peptide interactions with model peptides that exploit electrostatic complementarity and define a novel amyloid/nucleic acid co‐assembly. The structure provides a model for nucleic acid/amyloid co‐assembly as well as insight into the energetic determinants involved in templating amyloid assembly. Nucleic acids template amyloid assembly through electrostatic interactions. Structural insights indicate that these dynamic and complementary electrostatic interactions could play a role in the development of pathological lesions, bionanomaterials, and ribonucleoprotein granules.