[Mutations in the Escherichia coli 23S rRNA increase the rate of peptidyl-tRNA dissociation from the ribosome]. / Mutatsii v 23S ribosomnoi RNK Escherichia coli uvelichivaiut skorost' dissotsiatsii peptidil-tRNK iz kompleksa s ribosomami.

We have studied in vivo the phenotypes of 23S rRNA mutations G2582A, G2582U, G2583C, and U2584C, which are located at the A site of Escherichia coli 50S ribosomal subunit. All mutant rRNAs incorporated into 50S ribosomal subunits. Upon sucrose gradient fraction of cell lysates, 23S rRNAs mutated at G2582 to A and G2583 to C accumulated in the 50S and 70S fractions and were under-represented in the polysome fraction. Induction of 23S rRNAs mutated at G2582 and G2583 lead to a drastic reduction in cell growth. In addition, mutations G2582A and G2583C reduced to one-third the total protein synthesis but not the RNA synthesis. Finally, we show that 23S rRNA mutations G2582A, G2582U, and G2583C cause a significant increase in peptidyl-tRNA drop-off from ribosomes, thereby reducing translational processivity. The results clearly show that tRNA-23S rRNA interaction has an essential role in maintaining the processivity of translation.

[Stimulation of peptidyltransferase activity of 50S subunits by alcohols]. / Stimuliatsiia peptidiltransferaznoi aktivnosti 50S subchastitsy spirtami.

We have demonstrated that in certain conditions 50S subunits can transfer peptide moiety from peptidyl-tRNA to puromycin in the absence of alcohol. Monovalent cations NH4+ and K+ support this reaction, while Na+ and Li+ are ineffective. Optimal concentration for NH4+ is 1.8 M. Mg2+ ion concentrations above 12 mM are needed as well as an elevated temperature (30 degrees C). Using the alcohol-free puromycin reaction of 50S subunits we show that alcohol activates the peptidyl transferase center, but does not participate in the puromycin reaction. Neither does it change the protein composition of subunits.

[Protein L16 of the Escherichia coli ribosome: possible role in protein biosynthesis]. / Belok L16 ribosomy Escherichia coli: vozmozhnaia rol' v biosinteze belka.

We show that Escherichia coli 50S ribosomal subunits depleted of protein L16 can nevertheless catalyze the transfer of the peptide moiety from fMet-tRNA to puromycin, being, however, unable to use a fragment CACCA-Phe as an acceptor substrate. On the other hand, we found that protein L16 as well as its large fragment (amino acids 10-136) both interact with tRNA in solution (Kd approximately 10(-7) M). Moreover, L16 interacts with CACCA-Phe in solution as well as protects 3' end of tRNA from the enzymatic degradation. We suggest that L16, although not being the peptidyl transferase as such, is involved in the binding of the 3' end cytidines of tRNA into the ribosomal A site.