E. coli minicells lack DNA, yet they make protein, the synthesis of which is sensitive to chloramphenicol but insensitive to rifamycin. This protein is coded for by very stable cellular mRNA with an estimated half-life of 40-80 min. In an R factor-containing minicell, two very different species of mRNA are observed: (i) R factor-specific mRNA with a short half-life whose synthesis is rifamycin-sensitive and (ii) cellular mRNA with a long half-life whose synthesis is rifamycin-insensitive. These findings indicate that minicells contain normal degradative mechanisms for mRNA and point out the existence of a unique class of very stable cellular mRNA. Greater than 80% of the rifamycin-insensitive protein synthesized goes into the outer minicell membrane. Relatively stable mRNA, half-life 5.5-11.5 min, for outer membrane protein in whole cells has been reported [Hirashima et al. (1973) J. Mol. Biol. 79, 373-389]. The stability of minicell mRNA is significantly greater. This and other observations suggest that there are two functional species of mRNA for outer membrane protein perhaps in different sites in the cell. Furthermore, these studies suggest that a class of cellular proteins is synthesized in bacteria without concomitant transcription and in the absence of association with chromosomal DNA.