The lower hydrolysis of ATP by the stress protein GroEL is a major factor responsible for the diminished chaperonin activity at low temperature.

The chaperonins GroEL and GroES were shown to facilitate the refolding of urea-unfolded rhodanese in an ATP-dependent process at 25 or 37 degrees C. A diminished chaperonin activity was observed at 10 degrees C, however. At low temperature, GroEL retains its ability to form a complex with urea-unfolded rhodanese or with GroES. GroEL is also able to bind ATP at 10 degrees C. Interestingly, the ATPase activity of GroEL was highly decreased at low temperatures. Hydrolysis of ATP by GroEL was 60% less at 10 degrees C than at 25 degrees C. We conclude that the reduced hydrolysis of ATP by GroEL is a major but perhaps not the only factor responsible for the diminished chaperonin activity at 10 degrees C. GroEL may function primarily at higher temperatures in which the ability of GroEL to hydrolyze ATP is not compromised. Copyright 2000 Academic Press.