Hsp90 is regulated by a switch point in the C‐terminal domain

Heat shock protein 90 (Hsp90) is an abundant, dimeric ATP‐dependent molecular chaperone, and ATPase activity is essential for its in vivo functions. S‐nitrosylation of a residue located in the carboxy‐terminal domain has been shown to affect Hsp90 activity in vivo. To understand how variation of a specific amino acid far away from the amino‐terminal ATP‐binding site regulates Hsp90 functions, we mutated the corresponding residue and analysed yeast and human Hsp90 variants both in vivo and in vitro. Here, we show that this residue is a conserved, strong regulator of Hsp90 functions, including ATP hydrolysis and chaperone activity. Unexpectedly, the variants alter both the C‐terminal and N‐terminal association properties of Hsp90, and shift its conformational equilibrium within the ATPase cycle. Thus, S‐nitrosylation of this residue allows the fast and efficient fine regulation of Hsp90.