Phylogeny of wapiti, red deer, sika deer, and other North American cervids as determined from mitochondrial DNA

alpha-crystallin acts as a molecular chaperone by preventing the aggregation of proteins. Although the mechanism for this activity is not understood there is a proposition that temperature activation at or above 30 degrees C of alpha-crystallin is an absolute requirement, thereby suggesting a conformational transition as a trigger for the activity. In an attempt to unravel the putative temperature-activity relationship, the chaperone-like activity of alpha-crystallin was studied at a number of temperatures above and below 30 degrees C. Chaperone activity was monitored against aggregation of the insulin-B chain induced by cleavage of disulfide bond of insulin and also against photo-aggregation of gamma-crystallin. Contrary to the above notion, the results indicate that alpha-crystallin does not require thermal activation for its chaperone function and that it can efficiently function as a molecular chaperone even at temperatures below the previously reported transition temperature.