Intracellular pH regulation in maize root tips exposed to ammonium at high external pH

doi:10.1093/jexbot/51.343.207

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Journal of Experimental Botany, Vol. 51, No. 343, pp. 207-219, February 2000
© 2000 Oxford University Press

Intracellular pH regulation in maize root tips exposed to ammonium at high external pH

J. Gerendás¹^,3 and R.G. Ratcliffe²

¹ Institute for Plant Nutrition and Soil Science, University of Kiel, Olshausenstraße 40, D-24118 Kiel, Germany
² Department of Plant Sciences, University of Oxford, South Parks Road, Oxford OX1 3RB, UK

Ammonium-induced changes in the cytoplasmic and vacuolar pHvalues of excised maize (Zea mays L.) root tips, measured byin vivo ³¹P nuclear magnetic resonance (NMR) spectroscopy, werecorrelated with the ammonium content of the tissue, determinedby ¹⁴N NMR. Calculations based on these measurements indicatedthat the pH changes observed during exposure to 10 mM ammoniumfor 1 h at pH 9.0, and in the recovery following the removalof the external ammonium supply, were largely determined bythe influx and efflux of the weak base NH₃. Carboxylate synthesis,detected by both in vivo ¹³C NMR and the incorporation of [¹⁴C]bicarbonate,was stimulated by the ammonium-induced alkalinization of theroot tips, but the contribution that this proton-generatingprocess made to pH regulation during and after the ammoniumtreatment was quantitatively insignificant. Similarly, ammoniumassimilation, which was shown to occur via the proton-generatingglutamine synthetase/glutamate synthase pathway using in vivo¹⁵N NMR, was also quantitatively insignificant in comparisonwith the large changes in ammonium content that occurred duringthe ammonium treatment and subsequent recovery. The resultsare discussed in relation to several recent studies in whichammonium was used to perturb intracellular pH values, and itis argued (i) that a new method for probing the subcellularcompartmentation of amino acids, based on an ammonium-inducedalkalinization of the cytoplasm may be difficult to implementin dense heterogeneous tissues; and (ii) that observations onthe apparently proton-consuming effect of ammonium assimilationin rice root hairs may actually reflect unusually rapid assimilation.

Key words: Ammonium efflux, cytoplasmic pH, GS/GOGAT pathway, NMR spectroscopy, vacuolar pH.

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