Characterization of different conformational forms of 30 S ribosomal subunits in isolated and associated states: possible correlations between structure and function.

The reaction pattern with N-¹⁴C]ethylmaleimide served to follow conformational changes of 30 S ribosomal subunits that are induced by association with 50 S subunits and by the binding of aminoacyl-tRNA to 70 S ribosomes either enzymatically or non-enzymatically.The usefulness of the reaction with N-ethylmaleimide in discerning different conformational forms of the ribosome was previously demonstrated (Ginzburg et al., 1973) in an analysis of inactive and active 30 S subunits (as obtained at low Mg²⁺ and after heat reactivation, respectively). The reaction pattern of the 30 S moiety of 70 S ribosomes differs from the pattern of isolated active subunits (the only form capable of forming 70 S ribosomes) in both the nature of the labeled proteins and in being Mg²⁺-dependent. The reaction at 10 mm-Mg²⁺ reveals the following differences between isolated and reassociated 30 S subunits: (1) proteins S1, S18 and S21 that are not labeled in isolated active subunits, but are labeled in the inactive subunits, are highly reactive in 70 S ribosomes; (2) proteins S2, S4, S12 and S17 that uniquely react with N-ethylmaleimide in active subunits are all rendered inaccessible to modification after association; and (3) proteins S9, S13 and S19, that react in both active and inactive 30 S subunits, are labeled to a lesser extent in the 70 S ribosomes than in isolated subunits. This pattern is altered in two respects when the reaction with the maleimide is carried out at 20 mm-Mg²⁺; protein S18 is not modified while S17 becomes labeled.The differences in reaction pattern are considered as manifesting the existence of different conformational forms of the 30 S subunit in the dissociated and associated states as well as of different forms of 70 S ribosomes. The 30 S moiety of 70 S ribosomes at 10 mm-Mg²⁺ resembles the inactive subunit, while some of the features of the active subunit are preserved in the 70 S ribosome at 20 mmMg²⁺. The structural changes appear to be expressed in the functioning of the ribosome: non-enzymatic binding of aminoacyl-tRNA to active 30 S subunits is suppressed by 50 S subunits at 10 mm but not at 20 mm-Mg²⁺ (Kaufmann &; Zamir, 1972). The fact that elongation factor Tu-mediated binding is not suppressed by 50 S subunits raises the possibility that the function of the elongation factor might involve the facilitation of a conformational change of the ribosome. The analysis of different ribosomal binding complexes with N-ethylmaleimide showed that the binding of poly(U) alone results in a decrease in the labeling of S1 and S18. Binding of aminoacyl-tRNA, on the other hand, is closely correlated with the exposure of S17 for reaction with the maleimide. A model is outlined that accounts for this correlation as well as for the proposed role of elongation factor Tu.