Structural and functional organization of the colicin E1 operon.

Abstract

We analyzed the structural and functional relationships among independently cloned segments of the plasmid ColE1 region that regulates and codes for colicin E1 (cea), immunity (imm), and the mitomycin C-induced lethality function (lys). On the basis of physiological properties, restriction endonuclease mapping, and DNA sequence analysis, the following recombinant plasmids were determined to represent three major functional classes: pNP12 (cea+, imm+, lys+), pNP4 (cea+, imm+, lys-), and pNP6 (cea+, imm-, lys-). Our results have established the order, boundaries, and relative orientation of the three structural genes, the location of the promoter region for imm gene transcription, and the predicted amino acid sequences of the imm and lys gene products. Hydropathicity analysis suggests that both proteins have hydrophobic amino acid segments characteristic of membrane-associated proteins. A model for the structure and expression of the colicin E1 operon is proposed in which the cea and lys genes are expressed from a single inducible promoter that is controlled by the lexA repressor in response to the SOS system of Escherichia coli. The imm gene lies between the cea and lys genes and is expressed by transcription in the opposite direction from a promoter located within the lys gene. This arrangement of structural genes indicates that the transcriptional units for all three genes overlap. We suggest that the formation of anti-sense RNA may be an important element in the coordinate regulation of gene expression in this system.