ARE REDOX REACTIONS INVOLVED IN REGULATION OF K+ CHANNELS IN THE PLASMA-MEMBRANE OF LIMNOBIUM-STOLONIFERUM ROOT HAIRS

被引:23
作者
GRABOV, A [1 ]
BOTTGER, M [1 ]
机构
[1] UNIV HAMBURG, INST ALLGEMEINE BOT, D-22609 HAMBURG, GERMANY
关键词
D O I
10.1104/pp.105.3.927
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
The effects of the impermeant electron acceptor hexacyanoferrate III (HCF III) and the potassium channel blocker tetraethylammonium (TEA) on the current-voltage relationship and electrical potential across the plasma membrane of Limnobium stoloniferum root hairs was investigated using a modified sucrose gap technique. One millimolar HCF III immediately and reversibly depolarized the membrane by 27 mV, whereas the effect on the trans-membrane current was markedly delayed. After 6 min of treatment with this electron acceptor, outwardly rectifying current was inhibited by 50%, whereas the inwardly rectifying current was activated approximately 3-fold. Ten millimolar TEA blocked both outward (65%) and inward (52%) currents. Differential TEA-sensitive current was shown to be blocked (55%) by HCF III at -20 mV and was shown to be stimulated (230%) by this electron acceptor at -200 mV. The inward current at -200 mV was eliminated in the absence of KC or after addition of 10 mM Cs+ and was not affected by addition of either 10 mM Na+ or Li+, independent of the presence of HCF III. The addition of any alkali cation to the external medium decreased the outward current both in the presence and in the absence of HCF III. The membrane depolarization evoked by HCF III did not correlate with the corresponding modification of the inward current. HCF III is proposed to activate inwardly rectifying potassium channels and to inactivate outwardly rectifying potassium channels. It is concluded that the plasma membrane depolarization did not result from modulation of the potassium channels by HCF III and may originate from trans-plasma membrane electron transfer.
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页码:927 / 935
页数:9
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