Identification of polypeptides encoded by an Escherichia coli locus (hflA) that governs the lysis-lysogeny decision of bacteriophage lambda

Abstract

We report the cloning of the Escherichia coli hflA locus, which governs stability of phage lambda cII protein and which has been proposed to encode or regulate a cII-specific protease. The hflA locus was cloned on an 18-kilobase DNA fragment by selecting for plasmids that carry the neighboring purA gene. The boundaries of hflA were delimited by analysis of deletions and insertions constructed in vitro and by use of transposon Tn1000. Maxicell analysis of the proteins encoded by the hflA-containing fragment shows that hflA consists of at least two nonoverlapping genes, hflC and hflK, encoding polypeptides of 37,000 (C) and 46,000 (K) daltons. We observe that insertions into one gene eliminate the corresponding polypeptide and greatly reduce synthesis of the other. We suggest that these two polypeptides (K and C) interact to form a multimeric complex and that free subunits are unstable. We have constructed two types of fusions between hflA and lacZ. One is an hflC-lacZ protein fusion constructed in vitro; the other is an hfl-lacZ operon fusion in which a Mu dX(Apr lac) has inserted into the hflK gene. We have used the operon fusion to infer the direction of transcription of the hflK gene--toward hflC and in the same direction as hflC. Last, we describe evidence that hflA contains an additional gene, hflX, encoding a 50,000-dalton polypeptide.