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2
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Plant Physiol. 1982 Dec;70(6):1723-31. doi: 10.1104/pp.70.6.1723.
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Simultaneous consideration of tissue and substrate potassium concentration in k uptake kinetics: a model.同时考虑组织和基质钾浓度对钾吸收动力学的影响:一个模型。
Plant Physiol. 1982 Jan;69(1):283-5. doi: 10.1104/pp.69.1.283.
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Comparative studies on the sodium, potassium, and chloride relations of a wild halophytic and a domestic salt-sensitive tomato species.野生盐生植物和栽培盐敏感番茄属种的钠、钾和氯关系的比较研究。
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5
Loss of rubidium and potassium from barley roots on sudden chilling.大麦根在突然遇冷时丧失钾和铷。
Plant Physiol. 1979 Oct;64(4):581-4. doi: 10.1104/pp.64.4.581.
6
Regulation of potassium absorption in barley roots: an allosteric model.大麦根系钾吸收的调节:变构模型。
Plant Physiol. 1976 Jul;58(1):33-7. doi: 10.1104/pp.58.1.33.
7
Genotypic Responses to Salinity: Differences between Salt-sensitive and Salt-tolerant Genotypes of the Tomato.对盐度的基因型响应:番茄盐敏感型和耐盐型基因型之间的差异
Plant Physiol. 1976 Feb;57(2):162-6. doi: 10.1104/pp.57.2.162.
8
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Plant Physiol. 1952 Jul;27(3):457-74. doi: 10.1104/pp.27.3.457.
9
CARRIER-MEDIATED CATION TRANSPORT IN BARLEY ROOTS: KINETIC EVIDENCE FOR A SPECTRUM OF ACTIVE SITES.大麦根中载体介导的阳离子运输:活性位点谱的动力学证据
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两种番茄品种(普通番茄和契斯曼尼番茄)根中钾和钠的吸收动力学。

Potassium and sodium absorption kinetics in roots of two tomato species : lycopersicon esculentum and lycopersicon cheesmanii.

机构信息

Department of Land, Air and Water Resources, University of California, Davis, California 95616.

出版信息

Plant Physiol. 1985 Dec;79(4):1064-7. doi: 10.1104/pp.79.4.1064.

DOI:10.1104/pp.79.4.1064
PMID:16664530
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1075027/
Abstract

Excised roots of the tomato species, Lycopersicon esculentum Mill. cv Walter (the commercial species) and of Lycopersicon cheesmanii ssp. minor (Hook.) C.H. Mull. (a wild species from the Galapagos Islands), were used in comparative studies of their absorption of K(+) and Na(+). Uptake of (86)Rb-labeled K(+) and (22)Na-labeled Na(+) by excised roots of ;Walter' and L. cheesmanii varied as a function of genotype and tissue pretreatment with or without K(+). Excised roots of ;Walter' consistently absorbed more (86)Rb-labeled K(+) than those of L. cheesmanii. Absorption of K(+) from solutions ranging from 0.01 to 0.2 millimolar KCl showed saturation kinetics in both K(+)-pretreated and K(+)-depleted roots of ;Walter,' and for K(+)-depleted roots of L. cheesmanii. K(+)-pretreated roots of L. cheesmanii had exceedingly low rates of K(+) uptake with strikingly different, linear kinetics. Pretreatment with K(+) caused a decrease in rates of K(+) uptake in both genotypes. Potassium depleted roots of L. cheesmanii absorbed Na(+) at a greater rate than those of ;Walter,' whereas K(+)-pretreated roots of ;Walter' absorbed Na(+) at a greater rate than those of L. cheesmanii. The results confirm and extend previous conclusions to the effect that closely related genotypes may exhibit widely different responses to the two alkali cations, K(+) and Na(+).

摘要

切除的番茄属植物(番茄品种 Walter 和加拉帕戈斯群岛的 Lycopersicon cheesmanii ssp. minor)的根系被用于比较研究它们对 K(+)和 Na(+)的吸收。用(86)Rb 标记的 K(+)和(22)Na 标记的 Na(+)处理离体的 Walter 和 L. cheesmanii 根系,其吸收情况随基因型和组织预处理(有无 K(+))的不同而变化。Walter 根系吸收的(86)Rb 标记 K(+)始终多于 L. cheesmanii。在 0.01 至 0.2 毫摩尔 KCl 范围内的溶液中,K(+)预处理和 K(+)耗尽的 Walter'根系吸收 K(+)呈现饱和动力学,而 L. cheesmanii 的 K(+)耗尽根系则呈现线性动力学。L. cheesmanii 的 K(+)预处理根系的 K(+)吸收速率极低,具有明显不同的线性动力学。K(+)预处理会降低两种基因型的 K(+)吸收速率。K(+)耗尽的 L. cheesmanii 根系吸收 Na(+)的速率大于 Walter'根系,而 K(+)预处理的 Walter'根系吸收 Na(+)的速率大于 L. cheesmanii 根系。这些结果证实并扩展了先前的结论,即密切相关的基因型可能对两种碱金属阳离子 K(+)和 Na(+)表现出广泛不同的反应。