Czempinski K, Zimmermann S, Ehrhardt T, Müller-Röber B
Max-Planck-Institut für Molekulare Pflanzenphysiologie, Golm, Germany.
EMBO J. 1997 May 15;16(10):2565-75. doi: 10.1093/emboj/16.10.2565.
Potassium (K+) channels mediating important physiological functions are characterized by a common pore-forming (P) domain. We report the cloning and functional analysis of the first higher plant outward rectifying K+ channel (KCO1) from Arabidopsis thaliana. KCO1 belongs to a new class of 'two-pore' K+ channels recently described in human and yeast. KCO1 has four putative transmembrane segments and tandem calcium-binding EF-hand motifs. Heterologous expression of KCO1 in baculovirus-infected insect (Spodoptera frugiperda) cells resulted in outwardly rectifying, K+-selective currents elicited by depolarizing voltage pulses in whole-cell measurements. Activation of KCO1 was strongly dependent on the presence of nanomolar concentrations of cytosolic free Ca2+ [Ca2+]cyt. No K+ currents were detected when [Ca2+]cyt was adjusted to <150 nM. However, KCO1 strongly activated at increasing [Ca2+]cyt, with a saturating activity observed at approximately 300 nM [Ca2+]cyt. KCO1 single channel analysis on excised membrane patches, resulting in a single channel conductance of 64 pS, confirmed outward rectification as well as Ca2+-dependent activation. These data suggest a direct link between calcium-mediated signaling processes and K+ ion transport in higher plants. The identification of KCO1 as the first plant K+ outward channel opens a new field of structure-function studies in plant ion channels.
介导重要生理功能的钾(K+)通道具有一个共同的孔形成(P)结构域。我们报道了从拟南芥中克隆并对首个高等植物外向整流K+通道(KCO1)进行功能分析的结果。KCO1属于最近在人类和酵母中描述的一类新的“双孔”K+通道。KCO1有四个推定的跨膜片段和串联的钙结合EF手基序。在杆状病毒感染的昆虫(草地贪夜蛾)细胞中对KCO1进行异源表达,在全细胞测量中,去极化电压脉冲引发了外向整流的、K+选择性电流。KCO1的激活强烈依赖于纳摩尔浓度的胞质游离Ca2+[Ca2+]cyt的存在。当[Ca2+]cyt调整到<150 nM时,未检测到K+电流。然而,随着[Ca2+]cyt增加,KCO1强烈激活,在约300 nM[Ca2+]cyt时观察到饱和活性。对切除的膜片进行KCO1单通道分析,得到单通道电导为64 pS,证实了外向整流以及Ca2+依赖性激活。这些数据表明高等植物中钙介导的信号传导过程与K+离子运输之间存在直接联系。将KCO1鉴定为首个植物K+外向通道,开启了植物离子通道结构-功能研究的新领域。