Decomposition of ribosomal particles in Escherichia coli treated with mitomycin C.

Exposure of cells of Escherichia coli to mitomycin C (5 mug/ml) resulted in a marked change in the sedimentation profiles of the cell-free extracts, indicating a specific decomposition of ribosomal particles. When the extracts were prepared in the presence of 0.01 m Mg(++) and analyzed by sucrose density gradient centrifugations, the 100S fraction disappeared rapidly from the treated cells. The 70S ribosomes were also degraded, but more slowly, with a concomitant accumulation of a fraction having a sedimentation coefficient of about 50S. However, decomposition of the 70S ribosomes was preceded by an almost complete loss of the 50S ribosomal subunits, as revealed by sedimentation analyses in the presence of 10(-4)m Mg(++). Synthesis of the ribosomes in the treated cells was also suppressed, being demonstrated by a lower incorporation of uracil-2-(14)C into the ribosomal fractions. However, the change in the ribosomal profile in the treated cells apparently resulted from the decomposition of pre-existing ribosomes, rather than from the inhibition of the net synthesis of ribosomes. Sedimentation analyses and chromatography of the nucleic acids extracted from the treated cells indicated extensive but delayed degradation of the ribosomal ribonucleic acid (RNA), but not of the soluble RNA or deoxyribonucleic acid fractions. Altered structure of the ribosomes in the treated cells was also indicated by their lower melting temperature, broadened thermal profile, higher electrophoretic mobility, and extreme sensitivity to ribonuclease treatment, compared with normal ribosomes. The synthesis of messenger RNA was inhibited progressively with time in the treated cells.