Positive and negative regulation of sequences upstream of the form II cbb CO2 fixation operon of Rhodobacter sphaeroides.

The unlinked form I and form II Calvin cycle CO2 fixation (cbb) operons of the photosynthetic bacterium Rhodobacter sphaeroides are located on different genetic elements, yet both operons are positively regulated by the transcription activator protein CbbR, the product of the cbbR gene located immediately upstream of the form I operon. By employing deletion mutagenesis, and a newly constructed promoter probe vector, the form II operon promoter (cbbFIIp) and three other promoters (Up, Vp, and Wp) were localized within 2.1 kb upstream of the form II operon. Mutations in both cbbR and the first gene of the form I operon (cbbFI) elicited both positive and negative responses when transcriptional fusions controlled by these four promoters were examined. With the exception of Wp, all these upstream promoters were repressed by oxygen. In addition, these promoters were associated with open reading frames of unknown function whose deduced amino acid sequences showed no significant relationship to proteins in current databases. The results of these experiments suggest that the promoter sequences and genes upstream of the form II cbb operon may be intimately involved with control of the cbb regulon of this photosynthetic organism.