Delves into protein aggregation mechanisms using C. elegans, covering misfolding, aggregation pathways, kinetics, chaperones, and stochastic nucleation.
Delves into the contrasting effects of chaperones on amyloid beta peptide aggregation, exploring inhibitors, oligomer quantification, and antibody impacts.
Explores protein aggregation control through optimal strategies, inhibitors, and spatial regulation using liquid compartments, shedding light on drug interventions and aggregate dynamics.
Explores the molecular chaperone action of small heat shock proteins in proteostasis, focusing on their interaction with misfolded proteins and amyloid fibrils.
Explores the application of control theory to manage protein aggregation processes, focusing on amyloid fibers and their implications in various diseases.
