Selective resistance of bacterial polyadenylate-containing RNA to hydrolysis by guanosine 3'-5'-monophosphate-sensitive nuclease of Bacillus brevis

Earlier experiments had shown that the degradation of newly synthesized RNA in permeable cells of Bacillus brevis is mediated primarily by a guanosine 3′,5′-monophosphate-sensitive 3′-exonuclease N. Sarkar and H. Paulus (1975) J. Biol. Chem. 250, 684–690]. More recently, we found that a substantial fraction of pulse-labeled RNA in B. brevis is polyadenylylated N. Sarkar, D. Langley, and H. Paulus (1978) Biochemistry 17, 3468–3474], and it was thus of interest to examine the effect of polyadenylylation on the susceptibility of RNA to degradation by the 3′-exonuclease. Purified 3′-exonuclease from B. brevis hydrolyzed the unadenylylated fraction of pulse-labeled RNA from B. brevis much more rapidly than poly(A)-containing RNA. Similar results were obtained with the pulse-labeled unadenylylated and polyadenylylated RNA fractions from Bacillus subtilis. Control experiments showed that the differential hydrolysis of the labeled RNA preparations by 3′-exonuclease was not due to the presence of inhibitors or activators. These results suggest that the stability of mRNA in Bacillus species may be regulated by polyadenylylation.