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PLANT PHYSIOLOGY , Vol 115, Issue 4 1707-1719, Copyright © 1997 by American Society of Plant Biologists
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CELL BIOLOGY AND SIGNAL TRANSDUCTION |
Properties of Two Outward-Rectifying Channels in Root Xylem Parenchyma Cells Suggest a Role in K+ Homeostasis and Long-Distance Signaling
L. H. Wegner and A. H. De Boer
Faculty of Biology, Department of Genetics, Section of Plant Physiology, Vrije Universiteit Amsterdam, De Boelelaan 1087, 1081HV Amsterdam, The Netherlands
Xylem parenchyma cells (XPCs) control the composition of the transpiration
stream in plants and are thought to play a role in long-distance signaling
as well. We addressed the regulation, selectivity, and dependence on the
apoplastic ion concentrations of two types of outward rectifiers in the
plasma membrane of XPCs, to assess the physiological role of these
conductances. In whole-cell recordings, the membrane conductance at
depolarization was under the control of cytosolic Ca2+: at physiological
Ca2+ levels (150 nM) the K+ outward-rectifying conductance (KORC)
predominated, whereas at elevated Ca2+ levels (5 [mu]M), only the
nonselective outward-rectifying conductance (NORC) was active. No such
regulatory effect of Ca2+ was observed in inside-out experiments. The
voltage dependence of whole-cell KORC currents strongly depended on
apoplastic K+ concentration: an increase in apoplastic K+ resulted in a
positive shift of the current-voltage curve, roughly following the shift in
Nernst potential of K+. KORC is impermeable to Na+, but does translocate
Ca2+ in addition to K+. In contrast to KORC, NORC selected poorly among
monovalent cations and anions, the relative permeability PC+/PA- being
about 1.9. Gating of NORC was largely unaffected by the level of K+ in the
bath. Under all ionic conditions tested, NORC tail currents or
single-channel currents reversed close to 0 mV. Using an in vivo
xylem-perfusion technique, tetraethylammonium (an inhibitor of KORC) was
shown to block K+ transport to the shoot. These data support the hypothesis
that release of K+ to the xylem sap is mediated by KORC. The molecular
properties of these two conductances are discussed in the light of the
distinct physiological role of XPCs.
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