Control of bacterial alkaline phosphatase synthesis and variation in an Escherichia coli K-12 phoR mutant by adenyl cyclase, the cyclic AMP receptor protein, and the phoM operon.

Mutant phoR cells show a clonal variation phenotype with respect to bacterial alkaline phosphatase (BAP) synthesis. BAP clonal variation is characterized by an alternation between a Bap+ and Bap- phenotype. The switching is regulated by the phoM operon and the presence of glucose; the pho-510 mutant form of the phoM operon abolishes both BAP clonal variation and the effect of glucose (B.L. Wanner, J. Bacteriol. 169:900-903, 1987). In this paper we show that a mutation of the adenyl cyclase (cya) and the cyclic AMP receptor protein (crp) gene also abolish BAP clonal variation; either simultaneously reduces the amount of BAP made in phoR mutants. Also, the pho-510 mutation is epistatic; it increases BAP synthesis in delta cya phoR and delta crp phoR mutants. These data are consistent with the wild-type phoM operon having a negative, as well as a positive, regulatory role in gene expression. Furthermore, the data suggest that adenyl cyclase and Crp indirectly regulate BAP synthesis in a phoR mutant via an interaction with the phoM operon or its gene products. However, phoM operon expression was unaffected when tested with phoM operon lacZ transcriptional fusions. In addition, the switching Bap phenotype was not associated with an alternation in phoM operon expression.