Add to ORKGThe cells of marine and halotolerant eukaryotic algae can achieve osmotic balance by ion accumu-lation mechanisms or by the synihesis and de-gradation of compatible solutes. The latter mecha-nism has been extensively studied in Dunaliella tertiolecta, in which the compatible solute glycerol is synthesised and metabolised through the glycerol cycle. Osmoregulation in Poterioochromonas malhamensis by isofloridoside as the compatible solute has a different control mechanism. The results obtained with unicellular algae might lead to strategies for the improvement of salt and water stress resistance in crop plants. 2
Microorganisms respond to osmotic stress mostly by accumulating compatible solutes, either by uptake...
Extracted text; The mechanism by which plants cope with salt stress remains poorly understood. The g...
AbstractThe role of protein synthesis during the osmotic adaptation of Dunaliella salina was examine...
Algae inhabit a wide variety of both marine and freshwater habitats. These habitats differ in regard...
Cells of Dunaliella acidophila, an acidophilic and halotolerant green alga, which can grow at pH as ...
Plants and bacteria respond to hyperosmotic stress by an increase in intracellular osmolality, adjus...
Studying how freshwater cells modify metabolism and membrane lipids in response to salt stress is im...
International audienceP>Thellungiella salsuginea, a Brassicaceae species closely related to Arabidop...
Background and Aims Osmolytes are low-molecular-weight organic solutes, a broad group that encompass...
[EN] The study of the mechanisms of response to salt stress is one of the most active research topic...
The purpose of this thesis was to explore fundamental relationships between the photosynthetic produ...
Dunaliella tertiolecta accumulated glycerol at a rate of 200 fmol per cell h−l, when subjected to a ...
The unicellular green halotolerant microalga Dunaliella maritima grown in medium containing 500 mM N...
Desiccation tolerance is more prevalent in prokaryotes than in eukaryotes (Bewley 1979). Many cyanob...
Extremophile microalgae show a remarkable ability to cope with harsh environments, yet still relativ...
Microorganisms respond to osmotic stress mostly by accumulating compatible solutes, either by uptake...
Extracted text; The mechanism by which plants cope with salt stress remains poorly understood. The g...
AbstractThe role of protein synthesis during the osmotic adaptation of Dunaliella salina was examine...
Algae inhabit a wide variety of both marine and freshwater habitats. These habitats differ in regard...
Cells of Dunaliella acidophila, an acidophilic and halotolerant green alga, which can grow at pH as ...
Plants and bacteria respond to hyperosmotic stress by an increase in intracellular osmolality, adjus...
Studying how freshwater cells modify metabolism and membrane lipids in response to salt stress is im...
International audienceP>Thellungiella salsuginea, a Brassicaceae species closely related to Arabidop...
Background and Aims Osmolytes are low-molecular-weight organic solutes, a broad group that encompass...
[EN] The study of the mechanisms of response to salt stress is one of the most active research topic...
The purpose of this thesis was to explore fundamental relationships between the photosynthetic produ...
Dunaliella tertiolecta accumulated glycerol at a rate of 200 fmol per cell h−l, when subjected to a ...
The unicellular green halotolerant microalga Dunaliella maritima grown in medium containing 500 mM N...
Desiccation tolerance is more prevalent in prokaryotes than in eukaryotes (Bewley 1979). Many cyanob...
Extremophile microalgae show a remarkable ability to cope with harsh environments, yet still relativ...
Microorganisms respond to osmotic stress mostly by accumulating compatible solutes, either by uptake...
Extracted text; The mechanism by which plants cope with salt stress remains poorly understood. The g...
AbstractThe role of protein synthesis during the osmotic adaptation of Dunaliella salina was examine...