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當(dāng)前位置 > 首頁 > 技術(shù)文章 > 同時(shí)測定小麥原生質(zhì)體的電流與離子流,發(fā)現(xiàn)電流與K+密切相關(guān),與Ca2+無關(guān)

同時(shí)測定小麥原生質(zhì)體的電流與離子流,發(fā)現(xiàn)電流與K+密切相關(guān),與Ca2+無關(guān)

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 K+、Ca2+流與電流的關(guān)系(非損傷微電極與膜片鉗的結(jié)合)
同時(shí)測定小麥原生質(zhì)體的電流與離子流,發(fā)現(xiàn)電流與K+密切相關(guān),與Ca2+無關(guān)

鉀是植物生長發(fā)育必不可少的元素,離子的流向決定了鉀營養(yǎng)循環(huán)利用的效率。目前,承擔(dān)離子轉(zhuǎn)運(yùn)的許多分子已被分離和鑒定,但運(yùn)輸方向的調(diào)控機(jī)制目前尚不清楚。

劍橋大學(xué)的Matthew Gilliham等研究人員在《The Plant Journal》發(fā)表研究論文,應(yīng)用膜片鉗技術(shù)獲得小麥根原生質(zhì)體的全細(xì)胞外形及電流-電壓關(guān)系,并通過"非損傷微測技術(shù)"檢測出質(zhì)膜K+和Ca2+凈離子流速,與通過膜片鉗技術(shù)測得的電流強(qiáng)度做比較后發(fā)現(xiàn),K+流速/強(qiáng)度的比值變化反映了質(zhì)膜上KORC通道的不同分布,而且Ca2+流速與K+通道的激活并沒有相關(guān)性。

研究表明當(dāng)檢測到較強(qiáng)的Ca2+流時(shí)并未產(chǎn)生電流,也就是使用膜片鉗技術(shù)研究Ca2+通道時(shí),即使沒有檢測到電流,但很可能存在Ca2+流。所以,同時(shí)檢測跨膜的離子流和電流才能準(zhǔn)確地確定離子載體和離子通道的數(shù)量和類別。

點(diǎn)擊查看大圖
上圖:KORC電流與K+流速密切相關(guān),與Ca2+無關(guān)
關(guān)鍵詞:微電極離子流測定 ( Microelectrode Ion-Flux Estimation); 膜片鉗(Patch clamp)
參考文獻(xiàn):Matthew G. et al. The Plant Journal. 2006, 46:134-144
全文下載
 
Simultaneous flux and current measurement from single plant protoplasts reveals a strong link between K+ fluxes and current, but no link between Ca2+ fluxes and current
 
Matthew Gilliham 1,2*, Wendy Sullivan 2 , Mark Tester 3,4 and Stephen D. Tyerman 2
  1 Department of Plant Sciences, University of Cambridge, Downing Street, Cambridge, CB2 3EA, UK,
  2 School of Agriculture and Wine, Plant Research Centre, University of Adelaide, Waite Campus, PMB 1, Glen Osmond, SA 5064, Australia,
  3 Australian Centre for Plant Functional Genomics, PMB 1, Glen Osmond, SA 5064, Australia, and
  4 School of Agriculture and Wine, University of Adelaide, Australia
Correspondence to   *(fax +44 (0)1223 333953; e-mail ).
Copyright 2006 The Authors Journal compilation 2006 Blackwell Publishing Ltd
KEYWORDS
non-invasive self-referencing microelectrode ion-flux measurement • ion-selective electrodes • Microelectrode Ion-Flux Estimation • patch clamp electrophysiology • ion channels • selectivity

ABSTRACT

We present a thorough calibration and verification of a combined non-invasive self-referencing microelectrode-based ion-flux measurement and whole-cell patch clamp system as a novel and powerful tool for the study of ion transport. The system is shown to be capable of revealing the movement of multiple ions across the plasma membrane of a single protoplast at multiple voltages and in complex physiologically relevant solutions. Wheat root protoplasts are patch clamped in the whole-cell configuration and current–voltage relations obtained whilst monitoring net K+ and Ca2+ flux adjacent to the membrane with ion-selective electrodes. At each voltage, net ion flux (nmol m−2 sec−1) is converted to an equivalent current density (mA m−2) taking into account geometry and electrode efficiency, and compared with the net current density measured with the patch clamp system. Using this technique, it is demonstrated that the K+-permeable outwardly rectifying conductance (KORC) is responsible for net outward K+ movement across the plasma membrane [1:1 flux-to-current ratio (1.21 ± 0.14 SEM, n = 15)]. Variation in the K+ flux-to-current ratio among single protoplasts suggests a heterogeneous distribution of KORC channels on the membrane surface. As a demonstration of the power of the technique we show that despite a significant Ca2+ permeability being associated with KORC (analysis of tail current reversal potentials), there is no correlation between Ca2+ flux and KORC activity. A very significant observation is that large Ca2+ fluxes are electrically silent and probably tightly coupled to compensatory charge movements. This analysis demonstrates that it is mandatory to measure flux and currents simultaneously to investigate properly Ca2+ transport mechanisms and selectivity of ion channels in general.

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