Abstract
Dehalococcoides mccartyi strains are obligate anaerobes that grow by organohalide respiration. They have an important bioremediation potential because they are capable of reducing a multitude of halogenated compounds to less toxic products. We are now beginning to understand how these organisms make use of this large catabolic potential, whereby D. mccartyi expresses dehalogenases in a compound-specific fashion. MarR-type regulators are often encoded in the vicinity of reductive dehalogenase genes. In this study, we made use of heterologous expression and in vitro studies to demonstrate that the MarR-type transcription factor Rdh2R acts as a negative regulator. We identify its binding site on the DNA, which suggests a mechanism by which it controls the expression of two adjacent reductive dehalogenase operons.
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