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在缺乏AKT1通道活性的情况下支持植物生长的钾吸收:铵的抑制作用和钠的刺激作用

Potassium uptake supporting plant growth in the absence of AKT1 channel activity: Inhibition by ammonium and stimulation by sodium.

作者信息

Spalding E P, Hirsch R E, Lewis D R, Qi Z, Sussman M R, Lewis B D

机构信息

Department of Botany, University of Wisconsin, Madison, Wisconsin 53706, USA.

出版信息

J Gen Physiol. 1999 Jun;113(6):909-18. doi: 10.1085/jgp.113.6.909.

Abstract

A transferred-DNA insertion mutant of Arabidopsis that lacks AKT1 inward-rectifying K+ channel activity in root cells was obtained previously by a reverse-genetic strategy, enabling a dissection of the K+-uptake apparatus of the root into AKT1 and non-AKT1 components. Membrane potential measurements in root cells demonstrated that the AKT1 component of the wild-type K+ permeability was between 55 and 63% when external [K+] was between 10 and 1,000 microM, and NH4+ was absent. NH4+ specifically inhibited the non-AKT1 component, apparently by competing for K+ binding sites on the transporter(s). This inhibition by NH4+ had significant consequences for akt1 plants: K+ permeability, 86Rb+ fluxes into roots, seed germination, and seedling growth rate of the mutant were each similarly inhibited by NH4+. Wild-type plants were much more resistant to NH4+. Thus, AKT1 channels conduct the K+ influx necessary for the growth of Arabidopsis embryos and seedlings in conditions that block the non-AKT1 mechanism. In contrast to the effects of NH4+, Na+ and H+ significantly stimulated the non-AKT1 portion of the K+ permeability. Stimulation of akt1 growth rate by Na+, a predicted consequence of the previous result, was observed when external [K+] was 10 microM. Collectively, these results indicate that the AKT1 channel is an important component of the K+ uptake apparatus supporting growth, even in the "high-affinity" range of K+ concentrations. In the absence of AKT1 channel activity, an NH4+-sensitive, Na+/H+-stimulated mechanism can suffice.

摘要

先前通过反向遗传学策略获得了拟南芥的一个转移DNA插入突变体,该突变体在根细胞中缺乏AKT1内向整流钾离子通道活性,从而能够将根的钾离子吸收装置分解为AKT1和非AKT1成分。根细胞的膜电位测量表明,当外部[K⁺]在10至1000微摩尔之间且不存在NH₄⁺时,野生型钾离子通透性的AKT1成分在55%至63%之间。NH₄⁺特异性抑制非AKT1成分,显然是通过竞争转运蛋白上的钾离子结合位点。NH₄⁺的这种抑制作用对akt1植物有显著影响:突变体的钾离子通透性、⁸⁶Rb⁺流入根中的量、种子萌发和幼苗生长速率均受到NH₄⁺类似程度的抑制。野生型植物对NH₄⁺的耐受性要强得多。因此,在阻断非AKT1机制的条件下,AKT1通道传导拟南芥胚胎和幼苗生长所需的钾离子内流。与NH₄⁺的作用相反,Na⁺和H⁺显著刺激了钾离子通透性的非AKT1部分。当外部[K⁺]为10微摩尔时,观察到Na⁺对akt1生长速率的刺激作用,这是先前结果的一个预期结果。总的来说,这些结果表明,即使在钾离子浓度的“高亲和力”范围内,AKT1通道也是支持生长的钾离子吸收装置的重要组成部分。在没有AKT1通道活性的情况下,一种对NH₄⁺敏感、受Na⁺/H⁺刺激的机制就足够了。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bcf9/2225604/f509b4bc4a88/JGP7924.f1.jpg

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