Abstract
Transcriptional activation of σ54-dependent promoters is usually tightly regulated in response to environmental cues. The high abundance of potential σ54-dependent promoters in the anaerobe bacteria, Desulfovibrio vulgaris Hildenborough, reflects the high versatility of this bacteria suggesting that σ54 factor is the nexus of a large regulatory network. Understanding the key players of σ54-regulation in this organism is therefore essential to gain insights into the adaptation to anaerobiosis. Recently, the D. vulgaris orp genes, specifically found in anaerobe bacteria, have been shown to be transcribed by the RNA polymerase coupled to the σ54 alternative sigma factor. In this study, using in vitro binding experiments and in vivo reporter fusion assays in the Escherichia coli heterologous host, we showed that the expression of the divergent orp promoters is strongly dependent on the integration host factor IHF. Bioinformatic and mutational analysis coupled to reporter fusion activities and mobility shift assays identified two functional IHF binding site sequences located between the orp1 and orp2 promoters. We further determined that the D. vulgaris DVU0396 (IHFα) and DVU1864 (IHFβ) subunits are required to control the expression of the orp operons suggesting that they form a functionally active IHF heterodimer. Interestingly results obtained from the in vivo inactivation of DVU0396, which is required for orp operons transcription, suggest that several functionally IHF active homodimer or heterodimer are present in D. vulgaris.
Highlights
Desulfovibrio vulgaris Hildenborough (DvH) is a well-studied sulfate-reducing bacteria (SRB)
These results show that the E. coli integration host factor (IHF) heterodimer can activate orp operons transcription and that IHF is required for the expression of these s54-dependent operons
Microorganisms are under tough competition for available resources and have to perceive, integrate and respond to multiple signals pertaining to a variety of stresses that include limited nutrient availability, physicochemical stresses and pollutant toxicity
Summary
Desulfovibrio vulgaris Hildenborough (DvH) is a well-studied sulfate-reducing bacteria (SRB). It is the first SRB for which the genome has been sequenced [1] and genetics and cellular tools have been recently developed [2]. SRBs are ubiquitous in anoxic habitats, they are found in a wide variety of ecological niches as illustrated by their metabolic versatility Such environmental adaptations require stimuli perception and the subsequent modulation of the expression of relevant genes to optimize metabolism and physiology. Efficient and functional interaction of s54-RNA polymerase with a cognate EBP requires DNA bending, which is often facilitated by the integration host factor (IHF) protein, especially for promoters that lack flexible intrinsic bends [11,12,13,14,15]. IHF has been shown to recruit the s54-RNA polymerase to its promoter [14]
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