| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2040519 | Cell Reports | 2016 | 7 Pages |
•Convergent transcription does not increase genome instability in wild-type cells•Divergent transcription leads to a significant increase in genome instability•Top2 is critical for relieving topological tension at closely spaced promoters•Direction of transcription affects chromosome instability via topological tension
SummaryThe interplay of transcription, topological tension, and chromosome breakage is a subject of intense interest, but, with so many facets to the problem, it is difficult to test. Here, we vary the orientation of promoters relative to one another in a yeast system that permits sensitive detection of chromosome breaks. Interestingly, convergent transcription that would direct RNA polymerases into one another does not increase chromosome breakage. In contrast, divergent transcription that would create underwound and potentially single-stranded DNA does cause a marked increase in chromosome breakage. Furthermore, we examine the role that topoisomerases are playing in preventing genome instability at these promoters and find that Top2 is required to prevent instability at converging promoters.
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