Isolation and expression of a constitutive variant of the chloramphenicol-inducible plasmid gene cat-86 under control of the Bacillus subtilis 168 amylase promoter.

The amyR1 region controls the regulated expression of the Bacillus subtilis 168 amylase gene amyE. When cloned into the B. subtilis promoter-cloning plasmid pPL603, amyR1 has been shown to activate expression of the promoter-indicator gene cat-86. In this chimeric plasmid, p5' alpha B10, cat-86 expression was maximal in stationary phase B. subtilis cells and cat-86 expression was repressible by glucose. Both these properties are similar to the regulated expression of the B. subtilis amyE gene. In addition, cat-86 expression in p5' alpha B10 was inducible with chloramphenicol (Cm). The inducibility phenotype of cat-86 has been shown to be independent of the promoter that is used to activate the gene, and inducibility has been suggested to result from the presence of a pair of inverted-repeat sequences that span the ribosome-binding site (RBS) for cat-86. A spontaneous deletion mutant of p5' alpha B10 was isolated, p5' alpha B10 delta 1, in which cat-86 expression was constitutive with respect to Cm, but the basic pattern of amyR1-directed regulation of cat-86 was intact. The rightward deletion endpoint was within the upstream member of the pair of inverted repeats that immediately precede cat-86. This result is therefore consistent with the role proposed for the inverted repeats in Cm inducibility. The leftward endpoint of the deletion is within the amyR1 region and thus allows a more precise determination of the functional domain of amyR1.