RESUMEN
The stress-induced transcription of heat shock genes is controlled by heat shock transcription factor 1 (HSF1), which becomes activated in response to heat and other protein denaturants. In previous research on the eurythermal goby Gillichthys mirabilis, thermal activation of HSF1 was shown to vary as a function of acclimation temperature, suggesting the mechanistic importance of HSF1 activation to the plasticity of heat shock protein (Hsp) induction temperature. We examined the effect of season on the thermal activation of HSF1 in G. mirabilis, as well as the relative kinetics of HSF1 activation and Hsp70 mRNA production at ecologically relevant temperatures. There was no predictable seasonality in the thermal activation of HSF1, perhaps due to the existence of stressors, in addition to heat, acting in the field. Concentrations of Hsp70, a negative regulator of HSF1, as well as those of HSF1, varied with collection date. The rapidity of HSF1 activation and of Hsp70 mRNA synthesis increased with laboratory exposure temperature. Furthermore, Hsp70 mRNA production was more sustained at 35 degrees C than at 30 degrees C. Therefore, both the magnitude and the duration of a heat shock are important in determining the intensity of heat shock gene induction.