Comprehensive RNP profiling in cells identifies U1 snRNP complexes with cleavage and polyadenylation factors active in telescripting.

Abstract

Full-length transcription in the majority of protein-coding and other genes transcribed by RNA polymerase II in complex eukaryotes requires U1 snRNP (U1) to co-transcriptionally suppress transcription-terminating premature 3'-end cleavage and polyadenylation (PCPA) from cryptic polyadenylation signals (PASs). This U1 activity, termed telescripting, requires U1 to base-pair with the nascent RNA and inhibit usage of a downstream PAS. Here we describe experimental methods to determine the mechanism of U1 telescripting, involving mapping of U1 and CPA factors (CPAFs) binding locations in relation to PCPA sites, and identify U1 and CPAFs interactomes. The methods which utilizes rapid reversible protein-RNA and protein-protein chemical crosslinking, immunoprecipitations (XLIPs) of components of interest, and RNA-seq and quantitative proteomic mass spectrometry, captured U1-CPAFs complexes in cells, providing important insights into telescripting mechanism. XLIP profiling can be used for comprehensive molecular definition of diverse RNPs.