Research Articles

Unusual resistance of peptidyl transferase to protein extraction procedures

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Science  05 Jun 1992:
Vol. 256, Issue 5062, pp. 1416-1419
DOI: 10.1126/science.1604315


Peptidyl transferase, the ribosomal activity responsible for catalysis of peptide bond formation, is resistant to vigorous procedures that are conventionally employed to remove proteins from protein-nucleic acid complexes. When the "fragment reaction" was used as a model assay for peptide bond formation, Escherichia coli ribosomes or 50S subunits retained 20 to 40 percent activity after extensive treatment with proteinase K and SDS, but lost activity after extraction with phenol or exposure to EDTA. Ribosomes from the thermophilic eubacterium Thermus aquaticus remained more than 80 percent active after treatment with proteinase K and SDS, which was followed by vigorous extraction with phenol. This activity is attributable to peptidyl transferase, as judged by specific inhibition by the peptidyl transferase-specific antibiotics chloramphenicol and carbomycin. In contrast, activity is abolished by treatment with ribonuclease T1. These findings support the possibility that 23S ribosomal RNA participates in the peptidyl transferase function.

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