Functional characterization of a cyanobacterial OmpR/PhoB class transcription factor binding site controlling light color responses.

Complementary chromatic acclimation (CCA) allows many cyanobacteria to change the composition of their light-harvesting antennae for maximal absorption of different wavelengths of light. In the freshwater species Fremyella diplosiphon, this process is controlled by the ratio of red to green light and allows the differential regulation of two subsets of genes in the genome. This response to ambient light color is controlled in part by a two-component system that includes a phytochrome class photoreceptor and a response regulator with an OmpR/PhoB class DNA binding domain called RcaC. During growth in red light, RcaC is able to simultaneously activate expression of red light-induced genes and repress expression of green light-induced genes through binding to the L box promoter element. Here we investigate how the L box functions as both an activator and a repressor under the same physiological conditions by analyzing the effects of changing the position, orientation, and sequence of the L box. We demonstrate that changes in the local sequences surrounding the L box affect the strength of its activity and that the activating and repressing functions of the L box are orientation dependent. Also, the spacing between the L box and the transcription start site is critical for it to work as an activator, while its repressing role during light regulation requires additional upstream and downstream DNA sequence elements. The latter result suggests that the repressing function of RcaC requires it to operate in association with multiple additional DNA binding proteins, at least one of which is functioning as an activator.