Eric Ferret scite author profile

Eric Ferret

4Publications

81Citation Statements Received

25Citation Statements Given

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Affiliations

L'Institut Agro Dijon, Procédés Alimentaires et Microbiologiques, University of Burgundy

Publications

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Responses ofSaccharomyces cerevisiae to thermal stress

Guyot

Ferret

Gervais

2005

Biotechnol. Bioeng.

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We studied the mechanisms involved in heat gradient-induced thermotolerance of Saccharomyces cerevisiae. Yeasts were slowly heated in a nutrient medium from 25 to 50 degrees C at 0.5 degrees C/min or immediately heat shocked at 50 degrees C, and both sets of cultures were maintained at this temperature for 1 h. Cells that had been slowly heated showed a 50-fold higher survival rate than the rapidly heated cells. Such thermotolerance was found not to be related to protein synthesis. Indeed Hsp104 a known protein involved in yeast thermal resistance induced by a preconditioning mild heat treatment, was not synthesized and cycloheximide addition, a protein synthesis inhibitor, did not affect the thermoprotective effect. Moreover, a rapid cooling from 50 to 25 degrees C applied immediately after the heat slope treatment inhibited the mechanisms involved in thermotolerance. Such observations lead us to conclude that heat gradient-induced thermal resistance is not directly linked to mechanisms involving intracellular molecules synthesis or activity such as proteins (Hsps, enzymes) or osmolytes (trehalose). Other factors such as plasma membrane phospholipid denaturation could be involved in this phenomenon.

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Influence of the shape of phospholipid vesicles on the measurement of their size by photon correlation spectroscopy

Beney¹,

Linarés²,

Ferret³

et al. 1998

European Biophysics Journal

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The influence of shape transformation of large unilamellar vesicles (LUV) on their size measurement by photon correlation spectroscopy (PCS) has been investigated. The experimental size of vesicles after hyperosmotic contractions of increasing intensities have been compared to the theoretical volume decrease determined by applying Boyle Van't Hoff's law. The main observation is that PCS size measurement gives overestimated values when LUV have been subjected to a volume decrease of more than 20% of their initial volume. The PCS size overestimation is related to the influence of the shape transformation of the vesicles on their diffusion coefficient (D) as shown by modelling the evolution of D of a sphere which is transformed into an ellipsoid by internal volume reduction under constant area.

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Physiological responses of Escherichia coli exposed to different heat-stress kinetics

et al. 2010

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The effects of heat-stress kinetics on the viability of Escherichia coli were investigated. Cells were exposed to heat-stress treatments extending from 30 to 50 degrees C, with either a slope (40 min) or a shock (10 s), both followed by a 1-h plateau at 50 degrees C in nutritive medium. A higher survival rate was observed after the slope than after the shock, when both were followed by a plateau, so the heat slope induced a certain degree of thermotolerance. This tolerance was partly (i) linked to de novo protein synthesis during the subsequent plateau phase, and (ii) abolished after rapid cooling from 50 to 30 degrees C, which means that cellular components with rapidly reversible thermal properties are involved in this type of thermotolerance. The heat-slope-induced thermotolerance was chiefly linked to the maintenance of the plasma membrane integrity (preservation of structure, fluidity, and permeability), and not to GroEL or DnaK overexpression. Moreover, the high level of cell mortality induced by the heat shock could be related to changes in the membrane integrity.

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Cell volume changes during rapid temperature shifts

Gervais¹,

Marañón²,

Evrard³

et al. 2003

Journal of Biotechnology

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Eric Ferret

Responses ofSaccharomyces cerevisiae to thermal stress

Influence of the shape of phospholipid vesicles on the measurement of their size by photon correlation spectroscopy

Physiological responses of Escherichia coli exposed to different heat-stress kinetics

Cell volume changes during rapid temperature shifts

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