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Literature DB >> 29971720

The Role of Supercoiling in the Motor Activity of RNA Polymerases.

Annick Lesne^1,2,3,4, Jean-Marc Victor^5,6,7,8, Edouard Bertrand^2,3, Eugenia Basyuk^2,3, Maria Barbi^1,4.

Abstract

RNA polymerase (RNAP) is, in its elongation phase, an emblematic example of a molecular motor whose activity is highly sensitive to DNA supercoiling. After a review of DNA supercoiling basic features, we discuss how supercoiling controls polymerase velocity, while being itself modified by polymerase activity. This coupling is supported by single-molecule measurements. Physical modeling allows us to describe quantitatively how supercoiling and torsional constraints mediate a mechanical coupling between adjacent polymerases. On this basis, we obtain a description that may explain the existence and functioning of RNAP convoys.

Keywords: Convoy; DNA; Force; Molecular motor; Physical modeling; RNA polymerase; Supercoiling; Torque; Torsional constraints

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Year: 2018 PMID： 29971720 DOI： 10.1007/978-1-4939-8556-2_11

Source DB: PubMed Journal: Methods Mol Biol ISSN： 1064-3745

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Cited

4 in total

The Role of Supercoiling in the Motor Activity of RNA Polymerases.

1. RNase HI Depletion Strongly Potentiates Cell Killing by Rifampicin in Mycobacteria.

2. Bacterial genome architecture shapes global transcriptional regulation by DNA supercoiling.

3. DNA Supercoiling Drives a Transition between Collective Modes of Gene Synthesis.

4. A spatially resolved stochastic model reveals the role of supercoiling in transcription regulation.