Genome Biology (Sep 2023)

Coupling of co-transcriptional splicing and 3’ end Pol II pausing during termination in Arabidopsis

  • Sixian Zhou,
  • Fengli Zhao,
  • Danling Zhu,
  • Qiqi Zhang,
  • Ziwei Dai,
  • Zhe Wu

DOI
https://doi.org/10.1186/s13059-023-03050-4
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 23

Abstract

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Abstract Background In Arabidopsis, RNA Polymerase II (Pol II) often pauses within a few hundred base pairs downstream of the polyadenylation site, reflecting efficient transcriptional termination, but how such pausing is regulated remains largely elusive. Result Here, we analyze Pol II dynamics at 3’ ends by combining comprehensive experiments with mathematical modelling. We generate high-resolution serine 2 phosphorylated (Ser2P) Pol II positioning data specifically enriched at 3’ ends and define a 3’ end pause index (3’PI). The position but not the extent of the 3’ end pause correlates with the termination window size. The 3’PI is not decreased but even mildly increased in the termination deficient mutant xrn3, indicating 3’ end pause is a regulatory step early during the termination and before XRN3-mediated RNA decay that releases Pol II. Unexpectedly, 3’PI is closely associated with gene exon numbers and co-transcriptional splicing efficiency. Multiple exons genes often display stronger 3’ end pauses and more efficient on-chromatin splicing than genes with fewer exons. Chemical inhibition of splicing strongly reduces the 3’PI and disrupts its correlation with exon numbers but does not globally impact 3’ end readthrough levels. These results are further confirmed by fitting Pol II positioning data with a mathematical model, which enables the estimation of parameters that define Pol II dynamics. Conclusion Our work highlights that the number of exons via co-transcriptional splicing is a major determinant of Pol II pausing levels at the 3’ end of genes in plants.

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