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Effects of K+ and Na+ on the proton motive force of respiring Escherichia coli at alkaline pH.

ABSTRACT

The role of K+ and Na+ in the maintenance of the proton motive force (delta p) was studied in Escherichia coli incubated in alkaline media. Cells respiring in Tris buffer (pH 7.8) that contained less than 100 microEq of K+ and Na+ per liter had a normal delta p of about -165 mV. At pH 8.2, however, the delta p was reduced significantly. The decrease in delta p at pH 8.2 was due to a marked decrease in the transmembrane potential (delta psi), while the internal pH remained at 7.5 to 7.7. When KCl or NaCl, but not LiCl or choline chloride, was added to the cells, the delta psi rose to the values seen at an external pH of 7.8. In addition, choline chloride inhibited the enhancement of delta psi by K+. None of the salts had a significant effect on the internal pH. The effects can be attributed to alterations of K+ or Na+ cycling in and out of the cells via the known K+ and Na+ transport systems.

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