Explores the evolution and function of protein-repair machineries, emphasizing the role of ATP-fueled unfolding machines in preventing protein aggregation and promoting proper folding.
Explores the molecular chaperone action of small heat shock proteins in proteostasis, focusing on their interaction with misfolded proteins and amyloid fibrils.
Explores proteostasis regulation through chaperone interactions and post-translational modifications, revealing insights into protein quality control mechanisms.
Explores translation, mutations, ribosome function, protein folding, and degradation processes, emphasizing the genetic code's role in protein synthesis.
