<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmotic pressure have driven the evolution of molecular adaptation mechanisms. Understanding such mechanisms is limited by the common difficulties encountered in cultivating such organisms. Within the Euryarchaeota, for example, only the Halobacteria and the order Methanosarcinales include readily cultivable halophilic species. Furthermore, only the former have been extensively studied in terms of their component proteins. Here, in order to redress this imbalance, we investigate the halophilic adaptation of glycolytic enzymes from the ADP-dependent phosphofructokinase/glucokinase family (ADP-PFK/GK) derived from organisms of the order Methanosarc...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmotic...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmotic...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmotic...
<p>Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmo...
Halophilic organisms inhabit hypersaline environments where the extreme ionic conditions and osmotic...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...
International audienceExtreme halophilic Archaea thrive in high salt, where, through proteomic adapt...