Use of bacterial luciferase to establish a promoter probe vehicle capable of nondestructive real-time analysis of gene expression in Bacillus spp.

We report the construction and use of a new promoter probe vehicle capable of allowing extremely sensitive measurements of transcriptional activity promoted from random, chromosomal DNA fragment inserts. Coupled with the advantage of sensitivity, the detection system is noninvasive, nondestructive, and provides real-time reportage of expression potential. These latter aspects make it an especially valuable system for a continuing analysis of the complex transcriptional regulation patterns now recognized as a dominant control feature during the differentiation and morphogenesis characteristic of the sporulation cycle in Bacillus species. In this respect we describe the isolation of DNA fragments from B. megaterium and B. subtilis capable of initiating transcription in both the respective parent organisms and, in certain instances, also in Escherichia coli. Detailed luminescence studies showed that several promoter regions which are entirely or substantially developmentally controlled were isolated.