The bacterial RNA polymerase-associated CarD protein couples promoter activity to DNA supercoiling
David Forrest, Emily A. Warman, David C. Grainger

TL;DR
This study shows how the CarD protein helps bacteria start transcription by compensating for DNA sequence flaws and linking gene activity to DNA supercoiling.
Contribution
The novel finding is that CarD couples transcription to DNA supercoiling through promoter DNA topology in Rhodobacter sphaeroides.
Findings
CarD interacts with defective −10 elements in R. sphaeroides promoters to regulate transcription.
Negative DNA supercoiling alters global gene expression when CarD is involved.
Correcting DNA sequence flaws disrupts CarD and supercoiling-based regulation.
Abstract
RNA polymerase (RNAP) must unwind duplex DNA prior to transcription initiation. In bacteria, unwinding starts at a DNA motif called the promoter −10 element. Specifically, non-template strand bases interact with RNAP to trigger the process. A protein called CarD can support −10 element opening in many microbes. Whilst this most often activates transcription, CarD may repress if the DNA open complex is too stable. For Rhodobacter sphaeroides, a purple photoheterotrophic alpha-proteobacterium, CarD is particularly important as many −10 elements have a key DNA sequence defect. Here, we use genomic tools to map transcription initiation, binding of RNAP, CarD interactions, and DNA topology, globally in R. sphaeroides. We show an association between CarD-controlled transcription, and negative DNA supercoiling, which alters global gene expression if perturbed. Using biochemical tools, we show…
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Taxonomy
TopicsBacterial Genetics and Biotechnology · Photosynthetic Processes and Mechanisms · Cancer Research and Treatments
