Combinatorial Regulation by MrpC2 and FruA Involves Three Sites in the fmgE Promoter Region during Myxococcus xanthus Development

Abstract

ABSTRACT Starvation causes cells in a dense population of Myxococcus xanthus to change their gliding movements and construct mounds. Short-range C-signaling between rod-shaped cells within mounds induces gene expression that promotes differentiation into spherical spores. Several C-signal-dependent genes have been shown to be regulated by cooperative binding of two transcription factors to the promoter region. These F ruA- and M rpC2-regulated g enes (designated fmg ) each exhibit a different arrangement of binding sites. Here, we describe fmgE , which appears to be regulated by three sites for cooperative binding of FruA and MrpC2. Chromatin immunoprecipitation analysis showed that association of MrpC2 and/or its longer form, MrpC with the fmgE promoter region, depends on FruA, consistent with cooperative binding of the two proteins in vivo . Electrophoretic mobility shift assays with purified His 10 -MrpC2 and FruA-His 6 indicated cooperative binding in vitro to three sites in the fmgE promoter region. The effects of mutations on binding in vitro and on expression of fmgE-lacZ fusions correlated site 1 (at about position −100 relative to the transcriptional start site) with negative regulation and site 2 (just upstream of the promoter) and site 3 (at about position +100) with positive regulation. Site 3 was bound by His 10 -MrpC2 alone, or the combination of His 10 -MrpC2 and FruA-His 6 , with the highest affinity, followed by site 1 and then site 2, supporting a model in which site 3 recruits MrpC2 and FruA to the fmgE promoter region, site 1 competes with site 2 for transcription factor binding, and site 2 occupancy is required to activate the promoter but only occurs when C-signaling produces a high concentration of active FruA.