Protons and sodium ions are the most commonly used coupling ions in energy transduction in bacteria and archaea. At their growth temperature, the permeability of the cytoplasmic membrane of thermophilic bacteria to protons is high compared with that of sodium ions. In some thermophiles, sodium is the sole energy-coupling ion. To test whether sodium is the preferred coupling ion at high temperatures, the proton- and sodium permeability was determined in liposomes prepared from lipids isolated from various bacterial and archaeal species that differ in their optimal growth temperature. The proton permeability increased with the temperature and was comparable for most species at their respective growth temperatures. Liposomes of thermophilic ba...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
Protons and sodium ions are the most commonly used coupling ions in energy transduction in bacteria ...
Protons and sodium ions are the most commonly used coupling ions in energy transduction in bacteria ...
Protons and sodium ions are the most commonly used coupling ions in energy transduction in bacteria ...
Protons and sodium ions are the only used coupling ions in energy transduction in Bacteria and Archa...
Protons and sodium ions are the only used coupling ions in energy transduction in Bacteria and Archa...
Protons and sodium ions are the only used coupling ions in energy transduction in Bacteria and Archa...
The cytoplasmic membrane of bacteria and archaea determine to a large extent the composition of the ...
The cytoplasmic membrane of bacteria and archaea determine to a large extent the composition of the ...
Growth of Bacteria and Archaea has been observed at temperatures up to 95 and 110 degrees C, respect...
Growth of Bacteria and Archaea has been observed at temperatures up to 95 and 110 degrees C, respect...
The cytoplasmic membrane of bacteria and archaea determine to a large extent the composition of the ...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
Protons and sodium ions are the most commonly used coupling ions in energy transduction in bacteria ...
Protons and sodium ions are the most commonly used coupling ions in energy transduction in bacteria ...
Protons and sodium ions are the most commonly used coupling ions in energy transduction in bacteria ...
Protons and sodium ions are the only used coupling ions in energy transduction in Bacteria and Archa...
Protons and sodium ions are the only used coupling ions in energy transduction in Bacteria and Archa...
Protons and sodium ions are the only used coupling ions in energy transduction in Bacteria and Archa...
The cytoplasmic membrane of bacteria and archaea determine to a large extent the composition of the ...
The cytoplasmic membrane of bacteria and archaea determine to a large extent the composition of the ...
Growth of Bacteria and Archaea has been observed at temperatures up to 95 and 110 degrees C, respect...
Growth of Bacteria and Archaea has been observed at temperatures up to 95 and 110 degrees C, respect...
The cytoplasmic membrane of bacteria and archaea determine to a large extent the composition of the ...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...
The ion and particularly the proton and sodium ion permeabilities of cytoplasmic membranes play cruc...