Consequences of a specific cleavage in situ of 16-S ribosomal RNA for polypeptide chain initiation.

The effect of bacteriocin (cloacin DF13) treatment of Escherichia coli ribosomes on initiation of protein synthesis has been studied in detail. In agreement with our previous findings [Baan et al. (1976) Proc. Natl Acad. Sci. U.S.A. 73, 702--706] it is shown that 70-S initiation complexes can be formed with cloacin-treated ribosomes, but that the initiation factor IF-1 does not function properly. The following pleiotropic effects of this factor have been studied: (a) the acceleration of ribosomal subunit exchange with 70-S couples; (b) the stimulation of the IF-3-mediated dissociation of 70-S ribosomes; (c) the stimulation of 30-S initiation complex formation; (d) the enhancement of the rate of release of IF-2 from 70-S initiation complexes. The effects (a) and (b) are virtually abolished after cleavage of 16-S rRNA. The effect (d) is only partially reduced whereas effect (c) seems to be unimpaired. It is concluded that 70-S initiation complex formation with cloacin-treated ribosomes suffers from improper functioning of IF-1 in the generation of active subunits from 70-S tight couples. This is the only effect on initiation. It can be compensated for by adding more IF-3. The data provide functional evidence that 16-S rRNA is involved in ribosomal subunit interaction.