Abstract
Thymine glycols are formed in DNA by exposure to ionizing radiation or oxidative stress. Although these lesions are repaired by the base excision repair pathway, they have been shown also to be subject to transcription-coupled repair. A current model for transcription-coupled repair proposes that RNA polymerase II arrested at a DNA lesion provides a signal for recruitment of the repair enzymes to the lesion site. Here we report the effect of thymine glycol on transcription elongation by T7 RNA polymerase and RNA polymerase II from rat liver. DNA substrates containing a single thymine glycol located either in the transcribed or nontranscribed strand were used to carry out in vitro transcription. We found that thymine glycol in the transcribed strand blocked transcription elongation by T7 RNA polymerase approximately 50% of the time but did not block RNA polymerase II. Thymine glycol in the nontranscribed strand did not affect transcription by either polymerase. These results suggest that arrest of RNA polymerase elongation by thymine glycol is not necessary for transcription-coupled repair of this lesion. Additional factors that recognize and bind thymine glycol in DNA may be required to ensure RNA polymerase arrest and the initiation of transcription-coupled repair in vivo.
Highlights
Transcription-coupled repair (TCR)1 is a pathway of DNA excision repair that is targeted to removal of DNA lesions present in transcribed strands of expressed genes [1]
In an attempt to understand the role of mammalian RNA polymerase II (RNAP II) in TCR, we have developed an in vitro transcription system with templates containing a site-specific lesion positioned downstream of the adenovirus major late promoter (AdMLP) and purified proteins and initiation factors
We have studied the effect of thymine glycol (Tg) on transcription elongation by T7 RNAP and mammalian RNAP II using an in vitro assay with DNA substrates containing a single Tg in the transcribed or nontranscribed strand located downstream of the T7 promoter or the AdMLP and purified proteins to carry out transcription
Summary
Transcription-coupled repair (TCR)1 is a pathway of DNA excision repair that is targeted to removal of DNA lesions present in transcribed strands of expressed genes [1]. DNA substrates containing a single thymine glycol located either in the transcribed or nontranscribed strand were used to carry out in vitro transcription.
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