General Structural and Functional Features of Molecular Chaperones.

Molecular chaperones are a group of structurally diverse and highly conserved ubiquitous proteins. They play crucial roles in facilitating the correct folding of proteins in vivo by preventing protein aggregation or facilitating the appropriate folding and assembly of proteins. Heat shock proteins form the major class of molecular chaperones that are responsible for protein folding events in the cell. This is achieved by ATP-dependent (folding machines) or ATP-independent mechanisms (holders). Heat shock proteins are induced by a variety of stresses, besides heat shock. The large and varied heat shock protein class is categorised into several subfamilies based on their sizes in kDa namely, small Hsps (HSPB), J domain proteins (Hsp40/DNAJ), Hsp60 (HSPD/E; Chaperonins), Hsp70 (HSPA), Hsp90 (HSPC), and Hsp100. Heat shock proteins are localised to different compartments in the cell to carry out tasks specific to their environment. Most heat shock proteins form large oligomeric structures, and their functions are usually regulated by a variety of cochaperones and cofactors. Heat shock proteins do not function in isolation but are rather part of the chaperone network in the cell. The general structural and functional features of the major heat shock protein families are discussed, including their roles in human disease. Their function is particularly important in disease due to increased stress in the cell. Vector-borne parasites affecting human health encounter stress during transmission between invertebrate vectors and mammalian hosts. Members of the main classes of heat shock proteins are all represented in Plasmodium falciparum, the causative agent of cerebral malaria, and they play specific functions in differentiation, cytoprotection, signal transduction, and virulence.

Edkins AL ，Boshoff A 《Advances in Experimental Medicine and Biology》

[Cooperation between heat shock proteins in organizing of proteins spatial structure].

Wyżewski Z ，Gregorczyk KP ，Szulc-Dąbrowska L ，Struzik J ，Szczepanowska J ，Niemiałtowski M ... -  《-》

Guidelines for the nomenclature of the human heat shock proteins.

Kampinga HH ，Hageman J ，Vos MJ ，Kubota H ，Tanguay RM ，Bruford EA ，Cheetham ME ，Chen B ，Hightower LE ... -  《-》

Microbial molecular chaperones.

Lund PA 《Advances in Microbial Physiology》

[The pleiotropic activity of heat-shock proteins].

Kaźmierczuk A ，Kiliańska ZM 《-》