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本文引用的文献

1
Voltage Noise in Acer pseudoplatanus Cells : Basic Cellular Noise and Gramicidin a Induced Noise.青杨细胞的电压噪声:基础细胞噪声和短杆菌肽 A 诱导的噪声。
Plant Physiol. 1985 Oct;79(2):546-51. doi: 10.1104/pp.79.2.546.
2
Solubilization and partial purification of ATPase from a rose cell plasma membrane fraction.从玫瑰细胞质膜部分中溶解和部分纯化 ATP 酶。
Plant Physiol. 1984 Mar;74(3):611-6. doi: 10.1104/pp.74.3.611.
3
H-ATPase Activity from Storage Tissue of Beta vulgaris: I. Identification and Characterization of an Anion-Sensitive H-ATPase.来自甜菜贮藏组织的H-ATP酶活性:I. 一种阴离子敏感型H-ATP酶的鉴定与特性分析
Plant Physiol. 1984 Mar;74(3):538-44. doi: 10.1104/pp.74.3.538.
4
Isolation of Vacuoles from Root Storage Tissue of Beta vulgaris L.从菠菜根储存组织中分离液泡
Plant Physiol. 1976 Nov;58(5):656-62. doi: 10.1104/pp.58.5.656.
5
Characterization of the vacuolar ATPase activity of the crassulacean-acid-metabolism plant Kalanchoë daigremontiana. Receptor modulating.景天酸代谢植物落地生根的液泡ATP酶活性特征。受体调节。
Eur J Biochem. 1984 Jun 1;141(2):415-20. doi: 10.1111/j.1432-1033.1984.tb08207.x.
6
Patch clamp techniques for studying ionic channels in excitable membranes.用于研究可兴奋膜中离子通道的膜片钳技术。
Annu Rev Physiol. 1984;46:455-72. doi: 10.1146/annurev.ph.46.030184.002323.
7
Ion channels in plasmalemma of wheat protoplasts.小麦原生质体质膜中的离子通道。
Science. 1984 Nov 16;226(4676):835-8. doi: 10.1126/science.6093255.
8
Principles and applications of fluctuation analysis: a nonmathematical introduction.波动分析的原理与应用:非数学导论
Fed Proc. 1975 Apr;34(5):1364-9.

电噪声测量对红甜菜液泡:另一种方法来检测 atpase 活性。

Electrical noise measurements on red beet vacuoles : another way to detect the ATPase activity.

机构信息

Laboratoire "Echanges cellulaires," UA CNRS 203, Faculté des Sciences, BP 67, F76130 Mont-Saint-Aignan, France.

出版信息

Plant Physiol. 1986 Aug;81(4):1147-50. doi: 10.1104/pp.81.4.1147.

DOI:10.1104/pp.81.4.1147
PMID:16664959
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1075501/
Abstract

The vacuolar potential (V(vac)) and its fluctuations were recorded in red beet vacuoles (Beta vulgaris L.). Measurements with vacuoles in their suspension medium gave V(vac) = 10 +/- 2 millivolts (referred to the external medium) when 3 molar KCl microelectrodes were used. Buffering the microelectrode filling solution at pH 7.7 reversed the sign of the potential: V(vac) = -7 +/- 2 millivolts. The magnitude of the potential fluctuations was lowered by dilution (5-1000 times) with the suspension medium containing components released by the cells during the mechanical preparation. Fluctuations were decreased by 50 millimolar KNO(3) while they were enhanced by 5 millimolar ATP-Mg. No noticeable change in membrane resistance was detected. The presence of an ATPase bound to the tonoplast may explain the recorded noise spectra. These spectra imply a close connection between the rate of ATPase functioning and the magnitude of ionic fluxes across the tonoplast. It is suggested that noise analysis could be used to detect ATPase (or related enzyme) activity in vacuoles. Possible use of H(+) diffusion through a buffered microelectrode, to modify intravacuolar pH, is also suggested.

摘要

液泡电势 (V(vac)) 及其波动在红甜菜液泡 (Beta vulgaris L.) 中进行了记录。使用 3 摩尔 KCl 微电极时,在悬浮介质中的液泡进行测量,得到 V(vac) = 10 +/- 2 毫伏(相对于外部介质)。将微电极填充溶液缓冲至 pH 7.7 会改变电势的符号:V(vac) = -7 +/- 2 毫伏。通过用悬浮介质稀释(5-1000 倍),可以降低电势波动的幅度,其中悬浮介质包含细胞在机械制备过程中释放的成分。50 毫摩尔 KNO(3) 会降低波动幅度,而 5 毫摩尔 ATP-Mg 则会增强波动幅度。未检测到膜电阻的明显变化。结合到液泡被膜上的 ATP 酶的存在可能解释了记录到的噪声谱。这些谱表明 ATP 酶(或相关酶)的功能速率与穿过液泡被膜的离子通量的幅度之间存在密切联系。有人建议可以使用噪声分析来检测液泡中的 ATP 酶(或相关酶)活性。还建议使用缓冲微电极中的 H(+) 扩散来改变腔内 pH 值。