Can a Ca2+ Pump in the Endoplasmic Reticulum of the Lepidium Root be the Trigger for Rapid Changes in Membrane Potential after Gravistimulation?

Zeitschrift für Pflanzenphysiologie Pub Date : 1984-04-01 DOI:10.1016/S0044-328X(84)80010-0

A. Sievers , H.M. Behrens , T.J. Buckhout , D. Gradmann

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引用次数: 47

Abstract

Since gravistimulation is followed by alterations in the external current symmetry (Behrens et al., 1982), the effect of gravistimulation on cellular membrane potential was investigated using conventional glass microelectrode techniques. The resting potential of statocytes in a vertically oriented root is approx. -118 mV. Upon gravistimulation, the membrane potential is temporarily depolarized (lag time = 2 s) to a potential of approx. -93 mV. This depolarization is only observed in statocytes located on the physically lower root flank while those on the corresponding upper flank become weakly hyperpolarized (approx. -13 mV). These results reflect altered ion fluxes across the plasma membrane.

The perception of gravistimulus was suggested to result from a pressure of the amyloplasts on the distal endoplasmic reticulum (ER) of the statocytes (Sievers and Volkmann, 1972).

A causal relationship between changes in ER-amyloplast interactions and the rapid alterations in plasma membrane potential described above is not known. A candidate for such an intracellular messenger is Ca²⁺. As a first step in establishing the validity of such an assumption, we have isolated ER membranes from roots. When incubated with micromolar concentrations of Ca²⁺, the vesicular membrane fraction accumulates Ca²⁺. The accumulation is ATP-dependent and -specific and is directly coupled to ATP hydrolysis since a protonophore shows no inhibitory effect. Thus, in analogy to the sarcoplasmic reticulum of muscle, regulation of an ER-localized Ca²⁺ compartment might be an important step in such complex processes as stimulus-transduction in gravitropism.

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鳞茎根内质网Ca2+泵能触发重刺激后膜电位的快速变化吗?

由于重力刺激之后会发生外部电流对称性的改变(Behrens et al.， 1982)，因此使用传统的玻璃微电极技术研究了重力刺激对细胞膜电位的影响。在垂直方向的根中，静息电位约为。-118 mV。在重力刺激下，膜电位暂时去极化(滞后时间= 2秒)至约。-93 mV。这种去极化现象只发生在根侧下侧的静细胞中，而位于根侧上侧的静细胞则呈弱超极化(约为2)。-13 mV)。这些结果反映了离子通量在质膜上的改变。重力刺激的感知被认为是由静止细胞远端内质网(ER)上淀粉质体的压力引起的(Sievers和Volkmann, 1972)。内质-淀粉质体相互作用的变化与上述质膜电位的快速改变之间的因果关系尚不清楚。这种细胞内信使的候选者是Ca2+。作为建立这种假设有效性的第一步，我们从根中分离了内质网膜。当与微摩尔浓度的Ca2+孵育时，囊泡膜部分积累Ca2+。积累是ATP依赖和特异性的，由于质子团没有抑制作用，因此与ATP水解直接相关。因此，与肌肉的肌浆网类似，内质网定位的Ca2+室的调节可能是倾斜性中刺激转导等复杂过程的重要步骤。

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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Zeitschrift für Pflanzenphysiologie

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