THE STABLE MAINTENANCE SYSTEM PEM OF PLASMID R100 - DEGRADATION OF PEMI PROTEIN MAY ALLOW PEMK PROTEIN TO INHIBIT CELL-GROWTH

We constructed plasmids carrying heat-inducible pemI and pemK genes, which were fused with the collagen-lacZ sequence in frame. The PemK-collagen-LacZ (PemK*) protein produced from the fusion gene upon heat induction inhibited the growth of cells and killed most of the cells in the absence of the PemI protein but did not do so in the presence of the PemI protein. This supports our previous assumption that the PemK protein inhibits cell division, leading to cell death, whereas the PemI protein suppresses the function of the PemK protein. We also constructed the plasmid carrying the heat-inducible pem operon which consists of the intact pemI gene and the pemK gene fused with collagen-lacZ. The simultaneously induced PemI and PemK* proteins did not inhibit the growth of cells. However, the temperature shift to 30-degrees-C after induction of both proteins at 42-degrees-C caused inhibition of cell growth and death of most cells. This suggests that the PemI protein is somehow inactivated upon the arrest of de novo synthesis of the PemI and PemK* proteins, allowing the PemK* protein to function. We observed that the PemI-collagen-LacZ (PemI*) protein was degraded faster than the PemK* protein, perhaps by the action of a protease(s). In fact, the lon mutation, which caused no apparent degradation of the PemI* protein, did not allow the PemK* protein to function, supporting the suggestion described above. Instability of the PemI protein would explain why the cells which have lost the pem+ plasmid are preferentially killed.