Summary
2,4-Dinitrophenol (DNP) induced a rapid, pH-dependent, H+ influx into slices of maize (Zea mays L.) scutellum. H+ influx was very slow at pH 5, but it increased rapidly as the pH was lowered over the range 5 to 3.5. H+ influx was accompanied by a nearly equal K+ efflux. DNP rapidly accumulated in the slices, reaching a peak after 10–20 min of incubation; and then there was an efflux of DNP which continued for at least 2 h. Nearly constant rates of H+ influx were obtained over extended periods during which internal and external DNP concentrations were changing. Bathing solution pH had a much greater effect on H+ influx than it did on the peak tissue DNP level or on DNP efflux. DNP efflux also occurred when H+ influx was inhibited by CaCl2 or by a pH of 5. It is inferred from these data that DNP efflux indicates a lowering of cytoplasmic pH caused by H+ influxes not only from the bathing solution but also from the vacuole. It is concluded that H+ influx is induced, but not carried, by DNP. The H+ carrier, it is suggested, is a H+ pump (perhaps an ATPase) which is reversed by DNP.
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Florida Agricultural Experiment Station Journal Series No. 5959.
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Humphreys, T.E. Dinitrophenol-induced hydrogen-ion influx into the maize scutellum. Planta 127, 1–10 (1975). https://doi.org/10.1007/BF00388857
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DOI: https://doi.org/10.1007/BF00388857