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Variation of C-terminal domain governs RNA polymerase II genomic locations and alternative splicing in eukaryotic transcription

Qian Zhang, Wantae Kim, Svetlana B. Panina, Joshua E. Mayfield, Bede Portz and Y. Jessie Zhang ()
Additional contact information
Qian Zhang: University of Texas
Wantae Kim: University of Texas
Svetlana B. Panina: University of Texas
Joshua E. Mayfield: University of California San Diego
Bede Portz: Dewpoint Therapeutics
Y. Jessie Zhang: University of Texas

Nature Communications, 2024, vol. 15, issue 1, 1-18

Abstract: Abstract The C-terminal domain of RPB1 (CTD) orchestrates transcription by recruiting regulators to RNA Pol II upon phosphorylation. With CTD driving condensate formation on gene loci, the molecular mechanism behind how CTD-mediated recruitment of transcriptional regulators influences condensates formation remains unclear. Our study unveils that phosphorylation reversibly dissolves phase separation induced by the unphosphorylated CTD. Phosphorylated CTD, upon specific association with transcription regulators, forms distinct condensates from unphosphorylated CTD. Functional studies demonstrate CTD variants with diverse condensation properties exhibit differences in promoter binding and mRNA co-processing in cells. Notably, varying CTD lengths influence the assembly of RNA processing machinery and alternative splicing outcomes, which in turn affects cellular growth, linking the evolution of CTD variation/length with the complexity of splicing from yeast to human. These findings provide compelling evidence for a model wherein post-translational modification enables the transition of functionally specialized condensates, highlighting a co-evolution link between CTD condensation and splicing.

Date: 2024
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DOI: 10.1038/s41467-024-52391-6

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