Citation

  • Authors: Williamson, L., Saponaro, M., Boeing, S., East, P., Mitter, R., Kantidakis, T., Kelly, G. P., Lobley, A., Walker, J., Spencer-Dene, B., Howell, M., Stewart, A., Svejstrup, J. Q.
  • Year: 2017
  • Journal: Cell 168 843-855 e13
  • Applications: in vitro / siRNA / INTERFERin
  • Cell type: MRC-5
    Description: Human lung fibroblast cells
    Known as: MRC5, MRC 5

Abstract

The transcription-related DNA damage response was analyzed on a genome-wide scale with great spatial and temporal resolution. Upon UV irradiation, a slowdown of transcript elongation and restriction of gene activity to the promoter-proximal approximately 25 kb is observed. This is associated with a shift from expression of long mRNAs to shorter isoforms, incorporating alternative last exons (ALEs) that are more proximal to the transcription start site. Notably, this includes a shift from a protein-coding ASCC3 mRNA to a shorter ALE isoform of which the RNA, rather than an encoded protein, is critical for the eventual recovery of transcription. The non-coding ASCC3 isoform counteracts the function of the protein-coding isoform, indicating crosstalk between them. Thus, the ASCC3 gene expresses both coding and non-coding transcript isoforms with opposite effects on transcription recovery after UV-induced DNA damage.

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