The upstream 5′ splice site remains associated to the transcription machinery during intron synthesis

In the earliest step of spliceosome assembly, the two splice sites flanking an intron are brought into proximity by U1 snRNP and U2AF along with other proteins. The mechanism that facilitates this intron looping is poorly understood. Using a CRISPR interference-based approach to halt RNA polymerase II transcription in the middle of introns in human cells, we discovered that the nascent 5 splice site base pairs with a U1 snRNA that is tethered to RNA polymerase II during intron synthesis. This association functionally corresponds with splicing outcome, involves bona fide 5 ' splice sites and cryptic intronic sites, and occurs transcriptome-wide. Overall, our findings reveal that the upstream 5 ' splice sites remain attached to the transcriptional machinery during intron synthesis and are thus brought into proximity of the 3 ' splice sites; potentially mediating the rapid splicing of long introns. We know that most splicing reactions take place co-transcriptionally, but how the transcription machinery facilitate splicing of introns is unknown. Here the authors show that the 5 ' splice site remains associated with the transcription machinery during intron synthesis through U1 snRNP, providing a basis for the rapid splicing reaction of introns.

Automated summary

The study reveals that the upstream 5' splice sites remain associated with the transcription machinery during intron synthesis through U1 snRNP, facilitating the rapid splicing of introns.