Structure and temperature adaptation of chaperonin TF55 from Sulfolobus solfataricus. Our work has future potential both for biotechnology and for medical therapies. The cages formed by chaperonin subunits and their ability to bind to specific targets could lead to their application as nano-vesicles, could facilitate expression of eukaryotic proteins in bacteria and could help to prevent or dissolve protein aggregates. With Australia's ageing population, we can expect an increasing prevalence of ....Structure and temperature adaptation of chaperonin TF55 from Sulfolobus solfataricus. Our work has future potential both for biotechnology and for medical therapies. The cages formed by chaperonin subunits and their ability to bind to specific targets could lead to their application as nano-vesicles, could facilitate expression of eukaryotic proteins in bacteria and could help to prevent or dissolve protein aggregates. With Australia's ageing population, we can expect an increasing prevalence of pathologies such as Alzheimer's and Parkinson's disease and other diseases that arise from protein mis-folding and aggregation, including myopathies and cataracts. A participation of chaperonins has been implicated in these age-related diseases and demands detailed structural and functional investigations.Read moreRead less