Über die Verwendung von 86Rb als Indikator für Kalium, Untersuchungen am lichtgeförderten 42K/K- und 86Rb/Rb-Influx bei Elodea densa/ On the Application of 86Rb as a Tracer for Potassium, Measurements of the Lightdependent 42K/K- and 86Rb/Rb-Influx in Elodea densa

Abstract

1. The light-dependent influx of K^⊕ and of Rb^⊕ into isolated leaves of Elodea densa was measured by using ⁴²K^⊕ and ⁸⁶Rb^⊕ as tracers. 2. If ⁸⁶Rb was used as a tracer for K^⊕ and then the K^⊕ influx was determined from the specific activity σ⁸⁶Rb/K an influx vK(⁸⁶Rb) was obtained which was lower than the K(⁴²K) influx (fig. 1). The ratio of vK(⁴²K)/vK(⁸⁶Rb) = S_K,Rb increased with increasing [Rb^⊕]₀ and decreasing [K^⊕]₀ (figs. 1 and 7). The depression of vK(⁸⁶Rb) as compared to vK(⁴²K) was not a consequence of the competitive inhibition of K^⊕ influx by Rb^⊕ (cf. fig. 1). 3. As a working hypothesis it is proposed that ⁸⁶Rb^⊕ functions only as a tracer of Rb^⊕ and that vK(⁸⁴Rb) can be calculated from the parameters of the Rb (⁸⁶Rb) influx and its competitive inhibition by K^⊕. 4. By using the Michaelis - Menten - Kinetics a formula was derived for vK(⁸⁶Rb), the Michaelis constant Km_K(⁸⁶ _Rb), and for Vmax_K(⁸⁶ _Rb). From these calculations it may be predicted a) that vK(⁸⁶Rb) will show a Michaelis - Menten - Kinetic only if [Rb^⊕] is kept constant at all K^⊕ concentrations; b) that Vmax_K(⁸⁶ _Rb) is independent of [Rb^⊕] and not necessarily equal to Vmax_K(⁴² _K); and c) that Km_K(⁸⁶ _Rb) is greater than Km_K(⁴² _K) and dependent on [Rb^⊕]. 5. In order to test the calculations the mutual competitive inhibition of K^⊕ - and Rb⊕ -influx (figs. 2, 3) was measured. From the Michaelis - Menten - Parameters of the Rb (⁸⁶Rb) influx and the inhibition constant K_iK of potassium vK(⁸⁶Rb) was calculated. The predictions mentioned above were verified. The calculated depression of vK(⁸⁶Rb) as compared to vK(⁴²K) corresponded satisfactorily to the experimental values (fig. 7). 6. The isotherms of K (⁴²K) and of Rb (⁸⁶Rb) influx were measured (fig. 4). In the range of low concentrations (system 1) Vmax_K(⁴² _K) greatly exceeded Vmax_Rb(⁸⁶ _Rb), the same was true of Km_K(⁴² _K) as compared to Km_Rb(⁸⁶ _Rb). Thus in system 1 the Rb^⊕ influx proceeded with much greater affinity but lower capacity than the K^⊕ influx. Thus, although with regard to competitive inhibition K^⊕ and Rb^⊕ seem to use the same transfort site the relative similarity of vK(⁴²K) and vK(⁸⁶Rb) must be termed rather incidental though predictable. 7. At higher concentrations (system 2) the influx of K^⊕ and Rb^⊕ was less different with respect to K_m and Vmax (fig. 7), an observation which was confirmed by competitive inhibition on almost equal terms. 8. It must be stated that the value of ⁸⁶Rb^⊕ as a tracer instead of ⁴²K^⊕ is limited. However, the metabolic linkages of K^⊕ influx can also be detected by the use of ⁸⁶Rb^⊕.