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Non-Stressful Death of 23S rRNA Mutant G2061C Defective in Puromycin Reaction
- Sergiev, Petr V., Lesnyak, Dmitry V., Burakovsky, Dmitry E., Svetlov, Maxim, Kolb, Vyacheslav A., Serebryakova, Marina V., Demina, Irina A., Govorun, Vadim M., Dontsova, Olga A., Bogdanov, Alexey A.
- Journal of molecular biology 2012 v.416 no.5 pp. 656-667
- Escherichia coli, catalytic activity, death, enzyme activity, genes, luciferase, mutants, mutation, proteins, proteome, puromycin, ribosomal RNA, ribosomes, stress response, transfer RNA, translation (genetics)
- Catalysis of peptide bond formation in the peptidyl transferase center is a major enzymatic activity of the ribosome. Mutations limiting peptidyl transferase activity are mostly lethal. However, cellular processes triggered by peptidyl transferase deficiency in the bacterial cell are largely unknown. Here we report a study of the lethal G2061C mutant of Escherichia coli 23S ribosomal RNA (rRNA). The G2061C mutation completely impaired the puromycin reaction and abolished formation of the active firefly luciferase in an in vitro translation system, while poly(U)- and short synthetic mRNA-directed peptidyl transferase reaction with aminoacylated tRNAs in vitro was seemingly unaffected. Study of the cellular proteome upon expression of the 23S rRNA gene carrying the G2061C mutation compared to cells expressing wild-type 23S rRNA gene revealed substantial differences. Most of the observed effects in the mutant were associated with reduced expression of stress response proteins and particularly proteins associated with the ppGpp-mediated stringent response.