Oscillations in proton transport revealed from simultaneous measurements of net current and net proton fluxes from isolated root protoplasts: MIFE meets patch-clamp

Australian Journal of Plant Physiology Pub Date : 2001-08-03 DOI:10.1071/PP01030

S. Tyerman, M. Beilby, J. Whittington, U. Juswono, I. Newman, S. Shabala

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引用次数: 54

Abstract

Proton fluxes were measured non-invasively on patch-clamped protoplasts isolated from wheat roots using an external H + electrode to measure the electrochemical gradient in the external solution. Under voltage clamp in the whole-cell configuration, the H + fluxes across the plasma membrane could be measured as a function of voltage and time and correlated with the simultaneous measurements of membrane current. Protoplasts could exist in three states based on the current–voltage (I–V) curves and the flux–V curves. In the pump-state where the membrane voltage (Vm) was more negative than the electrochemical equilibrium potential for potassium (E K ), a net efflux of H + occurred that was voltage-dependent such that the efflux increased as Vm was clamped more positive. In the K-state, where Vm was close to E K , similar flux–V curves were observed. In the depolarised state where Vm was greater than E K the proton flux was characterised by a net influx of H + (H + -influx state) that reversed direction at more positive values of Vm. The inhibitory effect of DCCD and stimulatory effect of fusicoccin were used to correlate current and H + flux through the H + -ATPase for which there was reasonably good agreement within the limits of the flux measurements. Some protoplasts were kept in the whole-cell configuration for up to 3 h revealing slow sustained oscillations (period about 40 min) in H + flux that were in phase with oscillations in free-running Vm. These oscillations were also observed under voltage clamp, with membrane current in phase with H + flux, but which became damped out after a few cycles. The oscillations encompassed the pump-state, K + -state and H + -influx-state. The H +- flux–V curves and I–V curves were used to model the electrical characteristics of the plasma membrane with H + -ATPase, inward and outward K + rectifiers, a linear conductance, and a passive H + influx possibly through gated proton channels.

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从分离的根原生质体中同时测量净电流和净质子通量揭示了质子输运的振荡:MIFE满足膜片钳

利用外部H +电极测量外部溶液中的电化学梯度，对从小麦根中分离的贴片夹住的原生质体进行了非侵入性的质子通量测量。在全细胞结构的电压箝位下，可以测量到跨质膜的H +通量作为电压和时间的函数，并与同时测量的膜电流相关。根据电流-电压(I-V)曲线和通量- v曲线，原生质体可以以三种状态存在。在膜电压(Vm)比钾的电化学平衡电位(E K)更负的泵态中，H +的净流出发生，这是电压依赖的，因此随着Vm被夹紧得更正，流出量增加。在K态，Vm接近E K，也观察到类似的通量- v曲线。在去极化状态下，当Vm大于E K时，质子通量的特征是H +的净流入(H + -流入状态)，在Vm更正的情况下方向相反。DCCD的抑制作用和梭霉素的刺激作用被用来关联通过H + - atp酶的电流和H +通量，这在通量测量的范围内有相当好的一致性。一些原生质体在全细胞状态下保持长达3小时，显示出h +通量的缓慢持续振荡(周期约40分钟)，与自由运行Vm中的振荡相一致。在电压箝位下也观察到这些振荡，膜电流与H +通量相一致，但在几个周期后被衰减。振荡包括泵态、K +态和H +流态。用H +-通量- v曲线和I-V曲线模拟了具有H +- atp酶、向内和向外K +整流器、线性电导以及可能通过门控质子通道的H +被动内流的质膜的电特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Australian Journal of Plant Physiology

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