| Literature DB >> 28332923 |
Eitan Lerner1, Antonino Ingargiola1, Jookyung J Lee2, Sergei Borukhov2, Xavier Michalet1, Shimon Weiss1,3,4.
Abstract
In many cases, initiation is rate limiting to transcription. This due in part to the multiple cycles of abortive transcription that delay promoter escape and the transition from initiation to elongation. Pausing of transcription in initiation can further delay promoter escape. The previously hypothesized pausing in initiation was confirmed by two recent studies from Duchi et al. 1 and from Lerner, Chung et al. 2 In both studies, pausing is attributed to a lack of forward translocation of the nascent transcript during initiation. However, the two works report on different pausing mechanisms. Duchi et al. report on pausing that occurs during initiation predominantly on-pathway of transcript synthesis. Lerner, Chung et al. report on pausing during initiation as a result of RNAP backtracking, which is off-pathway to transcript synthesis. Here, we discuss these studies, together with additional experimental results from single-molecule FRET focusing on a specific distance within the transcription bubble. We show that the results of these studies are complementary to each other and are consistent with a model involving two types of pauses in initiation: a short-lived pause that occurs in the translocation of a 6-mer nascent transcript and a long-lived pause that occurs as a result of 1-2 nucleotide backtracking of a 7-mer transcript.Keywords: abortive initiation; backtracking; promoter escape; single-molecule FRET; transcription initiation; transcription pausing
Mesh:
Substances:
Year: 2017 PMID: 28332923 PMCID: PMC5574527 DOI: 10.1080/21541264.2017.1308853
Source DB: PubMed Journal: Transcription ISSN: 2154-1272