Selectivity of interaction of univalent cations with mammalian ribosomes studied by equilibrium dialysis in the presence of the K+ analogue, 204Tl+

The interaction of K⁺ with mammalian ribosomes was studied by equilibrium dialysis and compared with that of other univalent cations. The heavy K⁺ analogue, Tl⁺, binds more firmly than K⁺ to ribosomes and, unlike K⁺, has a practically useful isotope. With ²⁰⁴Tl⁺ as a marker of K⁺-selective binding the ribosome-cation interaction could be followed down to levels below 0.1 average Tl⁺-occupied site per ribosome. The Tl⁺/ribosome ratio varied with the free Tl⁺ concentration in a multiple way. At high Tl⁺ saturation Tl⁺ was easily displaced by Mg²⁺. With decreasing Tl⁺ saturation the competitive activity of Mg⁺⁺ was strikingly reduced, indicating that Tl⁺ and Mg⁺⁺ compete with different efficiency for different classes of sites.The experiments on univalent cations were performed at 1.5 mM Mg²⁺ under two complementary conditions: (1) Ribosomes were pretreated with 5 × 10^?2, 5 × 10^?3, and 5 × 10^?4 M LiNO₃, NaNO₃, KNO₃, and CsNO₃, and then equilibrated with different concentrations of ²⁰⁴TlNO₃ in the same buffers. (2) Ribosomes were pretreated with 10^?2, 10^?4, and 10^?6 M ²⁰⁴TlNO₃, and then equilibrated with different concentrations of LiNO₃, NaNO₃, KNO₃, and CsNO₃ (displacement experiments). At high Tl⁺ saturation Na⁺ and Li⁺ were about as active as K⁺ and Cs⁺ in competing with ²⁰⁴Tl⁺. With decreasing Tl⁺ saturation a differentiation occurred in favor of K⁺ and Cs⁺, with some preference for K⁺. It is concluded that ribosomes contain a limited number of sites with pronounced ion specificity. Of physiological cations K⁺ is most firmly bound to these sites.