Abstract

AbstractMembrane effects of the redox and pH indicator neutral red were studied with the chlorococcal alga Eremosphaera viridis, with Lemna gibba, and with “isolated” guard cells in epidermal peels of Valerianella locusta. Neutral red was extracellularly reduced and caused transmembrane current‐voltage changes, an increase in membrane conductance by about 14 nS, an apparent K+ net efflux of up to 120 μmol g−1 FW in 5 min, and an intracellular acidification by up to 0.7 pH units. Neutral red‐triggered K+ net efflux was most pronounced at low pH, at an Eo more positive than −200 mV, and without extracellular Ca2+. From the experimental data it is concluded that, due to the redox function of the phenazine molecule, extracellular neutral red triggers a trans‐plasmalemma e− transfer, leading to strong membrane depolarization and charge compensating K+ net efflux, in addition to some unspecific ion release. As a consequence the intracellular concentration of strong cations relative to strong anions (SID) decreases, resulting in intracellular acidification.

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