1. Spontaneous deamination of cytosine to uracil is biased to the non-transcribed DNA strand in yeast
- Author
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Universidad de Sevilla. Departamento de Genética, National Institutes of Health. United States, Ministerio de Ciencia e Innovación (MICIN). España, Williams, Jonathan D., Zhu, Demi, García Rubio, María Luisa, Shaltz, Samantha, Aguilera López, Andrés, Jinks-Robertson, Sue, Universidad de Sevilla. Departamento de Genética, National Institutes of Health. United States, Ministerio de Ciencia e Innovación (MICIN). España, Williams, Jonathan D., Zhu, Demi, García Rubio, María Luisa, Shaltz, Samantha, Aguilera López, Andrés, and Jinks-Robertson, Sue
- Abstract
Transcription in Saccharomyces cerevisiae is associated with elevated mutation and this partially reflects enhanced damage of the corresponding DNA. Spontaneous deamination of cytosine to uracil leads to CG>TA mutations that provide a strand-specific read-out of damage in strains that lack the ability to remove uracil from DNA. Using the CAN1 forward mutation reporter, we found that C>T and G>A mutations, which reflect deamination of the non-transcribed and transcribed DNA strands, respectively, occurred at similar rates under low-transcription conditions. By contrast, the rate of C>T mutations was 3-fold higher than G>A mutations under high-transcription conditions, demonstrating biased deamination of the non-transcribed strand (NTS). The NTS is transiently single-stranded within the ∼15 bp transcription bubble, or a more extensive region of the NTS can be exposed as part of an R-loop that can form behind RNA polymerase. Neither the deletion of genes whose products restrain R-loop formation nor the over-expression of RNase H1, which degrades R-loops, reduced the biased deamination of the NTS, and no transcription-associated R-loop formation at CAN1 was detected. These results suggest that the NTS within the transcription bubble is a target for spontaneous deamination and likely other types of DNA damage.
- Published
- 2023