Stability of rapidly labelled messenger ribonucleic acid in Bacillus amyloliquefaciens during the phases of minimum and maximum extracellular enzyme formation.

Abstract

The stability of rapidly labelled hybridizable messenger RNA in both exponential and post-exponential phase cells of Bacillus amyloliquefaciens was measured in terms of the rate of loss of its radioactivity. In the exponential phase, where 96% of the mRNA was specific for cell proteins and only 4% was exoprotein mRNA, the label was lost exponentially from the rapidly labelled hybridizable mRNA fraction with a half-life of six minutes at 30 °C. The antibiotic rifampicin, at a concentration of 10 μg/ml, had no effect on the characteristics of decay of this exponential-phase mRNA. In the post-exponential phase, where there were equal amounts of cell protein and exoprotein-specific mRNA, rapidly labelled hybridizable mRNA decayed exponentially in the presence of rifampicin (10 μg/ml), with a half-life of six minutes at 30 °C. In the absence of rifampicin the characteristics of decay were more complex. The evidence available suggested that this was due to the superimposition of a component attributable to reincorporation of degradation products of radioactive RNA on the characteristic exponential decay pattern of the post-exponential mRNA. Measurement of the stability of active mRNA, by studying the loss of ability to incorporate l-[14C]leucine into protein in the presence of rifampicin (10 μg/ml), gave half-lives of 4.5 minutes and six minutes, respectively, for exponential and post-exponential material.