Control of K+(Rb+) influx and transport with changed internal K+ concentration and age in two varieties of barley [potassium, rubidium, Hill plot, allosteric regulation]

Jensen, P. . Dept. of Plant Physiology

Control of K+(Rb+) influx and transport with changed internal K+ concentration and age in two varieties of barley [potassium, rubidium, Hill plot, allosteric regulation]

1980

Jensen, P. (Lund Univ. (Sweden). Dept. of Plant Physiology)

The influx of Rb('+) into the roots of two barley varieties (Hordeum vulgare L. cv. Salve and cv. Ingrid) from a K('+)-free ('86)Rb-labelled nutrient solution with 2.0 mM Rb('+), was checked at intervals from day 6 to day 18. The control plants were continuously grown in complete nutrient solution containing 5.0 mM K('+), while two other groups of plants were grown in K('+)-free nutrient solution starting on day 6 and between day 6 and day 9, respectively. The pattern of Rb('+) influx was similar for both varieties, although their efficiencies in absorbing Rb('+) were different. The relationship between Rb('+) influx and K('+) concentration of the root could be interpreted in terms of negative feedback through allosteric control of uptake across the plasmalemma of the root cells. Hill plots were bimodal, but in the opposite direction. The Hill coefficients, reflecting the minimum number of interacting allosteric binding sites for K('+) (Rb('+)), were low ( 3.0). It is discussed whether the threshold value, that is the breaking point in the Hill plot, is indicative of a changed efficiency of transporting units for K('+) (Rb('+)) transport to the xylem. Moreover, feedback regulation might be involved in transport of K('+) between root and shoot. The variation of K('+) concentrations in the roots and shoots of control plants were cyclic but in phase opposition despite an exponential growth. The average K('+) concentration varied only slightly with age.

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