Germinating conidiospores of Neurospora crassa that were exposed to 45 degrees C, a temperature that induces a heat shock response, were protected from injury caused by freezing in liquid nitrogen and subsequent thawing at 0 degrees C. Whereas up to 90% of the control spores were killed by this freezing and slow thawing, a prior heat shock increased cell survival four- to fivefold. Survival was determined by three assays: the extent of spore germination in liquid medium, the number of colonies that grew on solid medium, and dry-weight accumulation during exponential growth in liquid culture. The heat shock-induced protection against freezing injury was transient. Spores transferred to normal growth temperature after exposure to heat shock and before freezing lost the heat shock-induced protection within 30 min. Spores subjected to freezing and thawing stress synthesized small amounts of the heat shock proteins that are synthesized in large quantities by cells exposed to 45 degrees C. Pulse-labeling studies demonstrated that neither chilling the spores to 10 degrees C or 0 degrees C in the absence of freezing nor warming the spores from 0 degrees C to 30 degrees C induced heat shock protein synthesis. The presence of the protein synthesis inhibitor cycloheximide during spore exposure to 45 degrees C did not abolish the protection against freezing injury induced by heat shock. Treatment of the cells with cycloheximide before freezing, without exposure to heat shock, itself increased spore survival.