Molecular Mechanisms of Transcription-Coupled Repair

Author:

Selby Christopher P.1,Lindsey-Boltz Laura A.1,Li Wentao2,Sancar Aziz1

Affiliation:

1. Department of Biochemistry and Biophysics, University of North Carolina School of Medicine, Chapel Hill, North Carolina, USA;

2. Department of Environmental Health Science, University of Georgia, Athens, Georgia, USA

Abstract

Transcription-coupled repair (TCR), discovered as preferential nucleotide excision repair of UV-induced cyclobutane pyrimidine dimers located in transcribed mammalian genes compared to those in nontranscribed regions of the genome, is defined as faster repair of the transcribed strand versus the nontranscribed strand in transcribed genes. The phenomenon, universal in model organisms including Escherichia coli, yeast, Arabidopsis, mice, and humans, involves a translocase that interacts with both RNA polymerase stalled at damage in the transcribed strand and nucleotide excision repair proteins to accelerate repair. Drosophila, a notable exception, exhibits TCR but lacks an obvious TCR translocase. Mutations inactivating TCR genes cause increased damage-induced mutagenesis in E. coli and severe neurological and UV sensitivity syndromes in humans. To date, only E. coli TCR has been reconstituted in vitro with purified proteins. Detailed investigations of TCR using genome-wide next-generation sequencing methods, cryo–electron microscopy, single-molecule analysis, and other approaches have revealed fascinating mechanisms.

Publisher

Annual Reviews

Subject

Biochemistry

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