Single-molecule visualization of twin-supercoiled domains generated during transcription

Author:

Janissen Richard1ORCID,Barth Roman1ORCID,Polinder Minco1,van der Torre Jaco1,Dekker Cees1ORCID

Affiliation:

1. Department of Bionanoscience, Kavli Institute of Nanoscience Delft, Delft University of Technology , Delft , South-Holland  2629HZ , The Netherlands

Abstract

Abstract Transcription-coupled supercoiling of DNA is a key factor in chromosome compaction and the regulation of genetic processes in all domains of life. It has become common knowledge that, during transcription, the DNA-dependent RNA polymerase (RNAP) induces positive supercoiling ahead of it (downstream) and negative supercoils in its wake (upstream), as rotation of RNAP around the DNA axis upon tracking its helical groove gets constrained due to drag on its RNA transcript. Here, we experimentally validate this so-called twin-supercoiled-domain model with in vitro real-time visualization at the single-molecule scale. Upon binding to the promoter site on a supercoiled DNA molecule, RNAP merges all DNA supercoils into one large pinned plectoneme with RNAP residing at its apex. Transcription by RNAP in real time demonstrates that up- and downstream supercoils are generated simultaneously and in equal portions, in agreement with the twin-supercoiled-domain model. Experiments carried out in the presence of RNases A and H, revealed that an additional viscous drag of the RNA transcript is not necessary for the RNAP to induce supercoils. The latter results contrast the current consensus and simulations on the origin of the twin-supercoiled domains, pointing at an additional mechanistic cause underlying supercoil generation by RNAP in transcription.

Funder

European Research Council

Netherlands Organization for Scientific Research

Publisher

Oxford University Press (OUP)

Subject

Genetics

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