Acclimation of potassium influx in rye (Secale cereale) to low root temperatures |
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| Authors: | P. J. White D. T. Clarkson M. J. Earnshaw |
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| Affiliation: | (1) AFRC Letcombe Laboratory, Wantage, OX12 9JT Oxford, UK;(2) Department of Cell and Structural Biology, Williamson Building, Manchester University, Oxford Road, M13 9PL Manchester, UK;(3) Present address: Department of Botany, University of Edinburgh, The King's Buildings, Mayfield Road, EH9 3JH Edinburgh, UK;(4) Present address: Long Ashton Research Station, Long Ashton, BS18 9AF Bristol, UK |
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| Abstract: | The influx of K+(86Rb+) into intact roots of rye (Secale cereale L. cv. Rheidal) exposed to a differential temperature (DT) between the root (8° C) and shoot (20° C) is initially reduced compared with warm-grown (WG) controls with both shoot and root maintained at 20° C. Over a period of 3 d, however, K+-influx rates into DT plants are restored to levels similar to or greater than those of the WG controls, the absolute rates of K+ influx being strongly dependent upon the shoot/root ratio. Acclimation in DT plants results in a reduction of K+ influx into the apical (0–2 cm) region of the seminal root which is associated with a compensatory increase in K+ influx into the more mature, basal regions of the root. Values of Vmax and apparent Km for K+ influx into DT plants were similar to those for WG plants at assay temperatures of 8° C and 20° C except for an increase in the apparent Km at 8° C. The influx of K+ from solutions containing 0.6 mol·m-3 K+ into both WG and DT plants was found to be linearly related to assay temperature over the range 2–27° C, and the temperature sensitivity of K+ influx to be dependent upon shoot/root ratio. At high shoot/root ratios, the ratio of K+ influx at 20° C:K+ influx at 8° C for WG plants approached a minimum value of 1.9 whereas that for DT plants approached unity indicating that K+ influx into DT plants has a large temperature-insensitive component. Additionally, when plants were grown in solutions of low potassium concentration, K+ influx into DT plants was consistently greater than that into WG plants, in spite of having a greater root potassium concentration ([K+]int). This result indicates some change in the regulation of K+ influx by [K+]int in plants exposed to low root temperatures. We suggest that K+ influx into rye seedlings exposed to low root temperatures is regulated by the increased demand placed on the root system by a proportionally larger shoot and that the acclimation of K+ influx to low temperatures may be the result of an increased hydraulic conductivity of the root system.Abbreviations DT differential temperature pretreatment - [K+]int root potassium concentration - [K+]ext potassium concentration of nutrient medium - WG warm-grown pretreatment |
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| Keywords: | Acclimation (K+ influx) Low temperature (root) Potassium influx (regulation) Secale (K+ influx) Shoot/root ratio |
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