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与大麦内部离子浓度有关的磷酸盐、钾和氯的摄取和长距离运输:非变构调节的证据。

Uptake and long-distance transport of phosphate, potassium and chloride in relation to internal ion concentrations in barley: evidence of non-allosteric regulation.

机构信息

Agricultural Research Council Letcombe Laboratory, OX12, 9JT, Wantage, UK.

出版信息

Planta. 1984 May;160(6):500-7. doi: 10.1007/BF00411137.

DOI:10.1007/BF00411137
PMID:24258776
Abstract

The extent to which uptake and transport of either phosphate, potassium or chloride are controlled by the concentration of these ions within the root, perhaps through an allosteric mechanism, was investigated with young barley plants in nutrient solution culture. Plants were grown with their roots divided between two containers, such that a single seminal root was continuously supplied with all the required nutrient ions, while the remaining four or five seminal roots were either supplied with the same solution (controls) or, temporarily, a solution lacking a particular nutrient ion (nutrient-deficient treatment). Compared with controls, there was a marked stimulation of uptake and transport of labelled ions by the single root following 24 h or more of nutrient dificiency to the remainder of the root system. This stimulation, which comprised an increased transport to the shoot and, for all ions except Cl(-), increased transport to the remainder of the root system, took place without appreciable change in the concentration of particular ions within the single root. However, nutrient deficiency quickly caused a lower concentration of ions in the shoot and the remaining roots. The results are discussed in relation to various mechanisms, proposed in the literature, by which the coordination of ion uptake and transport may be maintained within the plant. We suggest that under our conditions any putative allosteric control of uptake and transport by root cortical cells was masked by an alternative mechanism, in which ion influx appears to be regulated by ion efflux to the xylem, perhaps controlled by the concentration of particular ions recycled in the phloem to the root from the shoot.

摘要

在营养液培养的幼大麦植株中,研究了根内这些离子的浓度(可能通过变构机制)对磷酸盐、钾或氯的吸收和转运的控制程度。将植物的根系分成两个容器,使得一个初生主根持续供应所有必需的营养离子,而其余四个或五个初生主根供应相同的溶液(对照)或暂时缺乏特定营养离子的溶液(营养缺乏处理)。与对照相比,在根系其余部分经历 24 小时或更长时间的营养缺乏后,单个根对标记离子的吸收和转运明显受到刺激。这种刺激包括向地上部的运输增加,以及除 Cl(-)外,向根系其余部分的运输增加,而单个根内特定离子的浓度没有明显变化。然而,营养缺乏很快导致地上部和其余根系中离子浓度降低。这些结果与文献中提出的各种机制有关,这些机制提出了在植物内部维持离子吸收和转运协调的机制。我们认为,在我们的条件下,根皮层细胞中任何假定的变构对吸收和转运的控制都被另一种机制所掩盖,在这种机制中,离子内流似乎受到向木质部的离子外排的调节,可能受韧皮部从地上部向根再循环的特定离子浓度控制。

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