Abstract

The aim of this work was to study the survival of yeast cells exposed to a combination of thermal and osmotic treatments, as occurs during drying processes, and assess associated changes in fluidity of the plasma membrane, which have been studied previously in this laboratory. Cells that were maintained at a nonlethal dehydration temperature (5 or 30 °C) were rapidly dehydrated up to 120 MPa, and then thermal stress was suddenly applied between 5 and 30 °C. Cell viability was measured after a return to initial conditions (i.e., 1.38 MPa and 25 °C). Results showed that the viability of yeast cells exposed to identical combined thermal and osmotic treatments was dependent on the chronology of the stress application. Finally, the temperature at which the dehydration was conducted, up to 120 MPa, appeared to be the main factor involved in cell survival and could be related to fluidity variations of the plasma membrane. Keywords: Saccharomyces cerevisiae; osmotic pressure; temperature; viability; plasma membrane phase; fluorescence anisotropy