Add to ORKGOrganisms that thrive optimally at temperatures above 80°C are called hyperthermophiles. These prokaryotes have been isolated from a variety of hot environments, such as marine geothermal areas, hence they are usually slightly halophilic. Like other halophiles, marine hyperthermophiles have to cope with fluctuations in the salinity of the external medium and generally use low-molecular mass organic compounds to adjust cell turgor pressure. These compounds can accumulate to high levels without interfering with cell metabolism, thereby deserving the designation of compatible solutes. Curiously, the accumulation of compatible solutes also occurs in response to supraoptimal temperatures.(...)Fundação para a Ciência e a Tecnologi
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
Organisms that thrive optimally at temperatures above 80°C are called hyperthermophiles. These prok...
Dissertation presented to obtain the Ph.D degree in BiochemistryHyperthermophilic organisms have opt...
AbstractWater-containing terrestrial, subterranean and submarine high temperature areas harbor a var...
Dissertation presented to obtain the Ph.D degree in BiochemistryHyperthermophilic organisms have opt...
Hyperthermophiles, growing optimally between 80 and 110 °C represent life at the upper temperature b...
Ecological studies have shown that water-containing terrestrial, subterranean and submarine high-tem...
Extreme halophiles are microorganisms adapted to low water activity living at the upper salt concent...
The ability of metabolically diverse hyperthermophilic archaea to withstand high temperatures, low p...
International audienceExtreme halophiles are microorganisms adapted to low water activity living at ...
peer-reviewedThermal niches although widespread are not uniform as they vary in pH, salinity, temper...
Pyrococcus furiosus is a remarkable archaeon able to grow at temperatures around 100 degrees C. To g...
Pyrococcus furiosus is a remarkable archaeon able to grow at temperatures around 100 degrees C. To g...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
Organisms that thrive optimally at temperatures above 80°C are called hyperthermophiles. These prok...
Dissertation presented to obtain the Ph.D degree in BiochemistryHyperthermophilic organisms have opt...
AbstractWater-containing terrestrial, subterranean and submarine high temperature areas harbor a var...
Dissertation presented to obtain the Ph.D degree in BiochemistryHyperthermophilic organisms have opt...
Hyperthermophiles, growing optimally between 80 and 110 °C represent life at the upper temperature b...
Ecological studies have shown that water-containing terrestrial, subterranean and submarine high-tem...
Extreme halophiles are microorganisms adapted to low water activity living at the upper salt concent...
The ability of metabolically diverse hyperthermophilic archaea to withstand high temperatures, low p...
International audienceExtreme halophiles are microorganisms adapted to low water activity living at ...
peer-reviewedThermal niches although widespread are not uniform as they vary in pH, salinity, temper...
Pyrococcus furiosus is a remarkable archaeon able to grow at temperatures around 100 degrees C. To g...
Pyrococcus furiosus is a remarkable archaeon able to grow at temperatures around 100 degrees C. To g...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...
International audienceMicrobes preserve membrane functionality under fluctuating environmental condi...