Impaired lysogenisation of the Escherichia coli rpoA341 mutant by bacteriophage lambda is due to the inability of CII to act as a transcriptional activator.

The C-terminus of the alpha subunit of Escherichia coli RNA polymerase is known to function in transcriptional activation at certain promoters. This region was previously shown to be necessary for full activation of the pE promoter by the phage lambda CII protein in vitro. In this work we investigated the inability of phage lambda to follow the lysogenic pathway in cells carrying the point mutation rpoA341 (a change of lysine 271 to glutamic acid). We found that neither overexpression of the cII gene nor stabilisation of the CII protein by the can1 mutation or by cIII gene overexpression was able to suppress the block in lysogenisation. In contrast, the lambda cin1 phage, which carries a CII-independent promoter for the expression of the cI gene, was able to efficiently lysogenise the rpoA341 mutant strain. Furthermore, the rpoA341 mutation prevented the activation of pE-lacZ and pI-lacZ transcriptional fusions by CII. Therefore we conclude that transcriptional activation by the cII gene product is abolished by the rpoA341 mutation, most probably due to impaired interaction between the CII activator and mutant RNA polymerase. The inability of RNA polymerase to respond to CII results in the impairment of lysogenisation of the rpoA341 mutant by phage lambda.