Abstract
Potassium extrusion in bacteria is thought to play a role in the regulation of the cytoplasmic pH; in several organisms, it has been ascribed to secondary antiport of K+ for protons. Streptococcus faecalis exhibited a distinctive pattern: potassium extrusion occurred only when the cytoplasmic pH was alkaline and required the generation of ATP. The key observation is that glycolyzing cells suspended in an alkaline medium extruded K+, even against a K+ concentration gradient, provided the medium contained a weak permeant base (e.g. diethanolamine or methylamine). The amines render the cytoplasmic pH alkaline; when conditions were arranged to keep the cytoplasm neutral, no K+ extrusion was seen. Potassium extrusion required the presence of either glucose or arginine and was unaffected by protonophores and by inhibition of the F1Fo-ATPase. When the medium contained [14C]methylamine, the cells accumulated the base to an extent stoichiometrically equivalent to the K+ lost. Concurrently, the cytoplasmic pH fell from 8.8 to 7.6, at which point K+ extrusion ceased. The results suggest that K+ extrusion is due to an ATP-driven transport system that expels K+ by exchange for H+ and is active only at alkaline cytoplasmic pH.
Highlights
Organisms, it has been ascribed to secondary antiport The K+/H+antiporters are thought to function in the reguof K+ for protons
We present evidence that S. faecalis contains an energy-dependent K+/ H+ antiporter that is active at alkaline cytoplasmic pH and serves to acidify the cytoplasm [11].A preliminary report has appeared elsewhere [12]
Potassiumextrusionina number of bacteriahas been ascribed to a secondary antiporter thatmediates exchange of K+for H+(4-8,22), and we expected this mechanism to apply to S. fuecalis as well
Summary
Organisms, it has been ascribed to secondary antiport The K+/H+antiporters are thought to function in the reguof K+ for protons. Cytoplasmic alkalinization is again a prerequisite for K+extrusion, but the transport system differs from those described previously in that it requires the generation of ATP. Energy-dependent Uphill Potassium Extrusion-Cells were suspended in the alkaline buffer (pH 9.0) containing at least
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