We show in the present paper that the cleavages initiating decay of the ompA mRNA are suppressed both in the Escherichia coli ams(ts) strain (originally defined by a prolonged bulk mRNA half-life) and in the me(ts) strain (originally defined by aberrant 9S RNA processing). The temperature-sensitive defects of both these strains are complemented by a recombinant lambda phage containing a genomic segment that carries the putative ams locus. A 5.8 kb fragment from this genomic DNA segment was cloned into a low-copy plasmid and used to transform the ams(ts) and rne(ts) strains. This resulted in growth at the non-permissive temperature and a reoccurrence of the cleavages initiating decay of the ompA mRNA. Deletion analyses of this 5.8 kb fragment indicated that the putative ams open reading frame could complement both the Ams(ts) and the Rne(ts) phenotype with regard to the ompA cleavages. In addition we showed that the ams(ts) strain suppresses 9S RNA processing to 5S RNA to the same extent as the rne(ts) strain, and that the rne(ts0 strain has a prolonged bulk mRNA half-life, as was reported for the ams(ts) strain. Therefore we suggest that ams and rne reflect the same gene locus; one which is involved both in mRNA decay and RNA processing. We discuss how this gene locus may related to the previously characterized endoribonucleolytic activities of RNase E and RNase K.