Allostery in the Hsp70 chaperone proteins.

Heat shock 70-kDa (Hsp70) chaperones are essential to in vivo protein folding, protein transport, and protein re-folding. They carry out these activities using repeated cycles of binding and release of client proteins. This process is under allosteric control of nucleotide binding and hydrolysis.

Allosteric drugs: the interaction of antitumor compound MKT-077 with human Hsp70 chaperones.

Hsp70 (heat shock protein 70 kDa) chaperones are key to cellular protein homeostasis. However, they also have the ability to inhibit tumor apoptosis and contribute to aberrant accumulation of hyperphosphorylated tau in neuronal cells affected by tauopathies, including Alzheimer's disease. Hence, Hsp70 chaperones are increasingly becoming identified as targets for therapeutic intervention in these widely abundant diseases.

SAGA: rapid automatic mainchain NMR assignment for large proteins.

Here we describe a new algorithm for automatically determining the mainchain sequential assignment of NMR spectra for proteins. Using only the customary triple resonance experiments, assignments can be quickly found for not only small proteins having rather complete data, but also for large proteins, even when only half the residues can be assigned. The result of the calculation is not the single best assignment according to some criterion, but rather a large number of satisfactory assignments that are summarized in such a way as to help the user identify portions of the sequence that are assigned with confidence, vs.

Chemical manipulation of hsp70 ATPase activity regulates tau stability.

Alzheimer's disease and other tauopathies have recently been clustered with a group of nervous system disorders termed protein misfolding diseases. The common element established between these disorders is their requirement for processing by the chaperone complex. It is now clear that the individual components of the chaperone system, such as Hsp70 and Hsp90, exist in an intricate signaling network that exerts pleiotropic effects on a host of substrates.