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Interplay between splicing and transcriptional pausing exerts genome-wide control over alternative polyadenylation

Carmen Mora Gallardo, Ainhoa Sánchez de Diego, Carlos Martínez‐A, Karel H. M. van Wely

2021Transcription16 citationsDOIOpen Access PDF

Abstract

Recent studies have identified multiple polyadenylation sites in nearly all mammalian genes. Although these are interpreted as evidence for alternative polyadenylation, our knowledge of the underlying mechanisms is still limited. Most studies only consider the immediate surroundings of gene ends, even though in vitro experiments have uncovered the involvement of external factors such as splicing. Whereas in vivo splicing manipulation was impracticable until recently, we now used mutants in the Death Inducer Obliterator (DIDO) gene to study their impact on 3ʹ end processing. We observe multiple rounds of readthrough and gene fusions, suggesting that no arbitration between polyadenylation sites occurs. Instead, a window of opportunity seems to control end processing. Through the identification of T-rich sequence motifs, our data indicate that splicing and transcriptional pausing interact to regulate alternative polyadenylation. We propose that 3ʹ splice site activation comprises a variable timer, which determines how long transcription proceeds before polyadenylation signals are recognized. Thus, the role of core polyadenylation signals could be more passive than commonly believed. Our results provide new insights into the mechanisms of alternative polyadenylation and expand the catalog of related aberrations.Abbreviations APA: alternative polyadenylation; bp: basepair; MEF: mouse embryonic fibroblasts; PA: polyadenylation; PAS: polyadenylation site; Pol II: (RNA) polymerase II ; RT-PCR:reverse-transcriptase PCR; SF:splicing factor; SFPQ:splicing factor rich in proline and glutamine; SS:splice site; TRSM:Thymidine rich sequence motif; UTR:untranslated terminal region

Topics & Concepts

PolyadenylationRNA splicingBiologyAlternative splicingCleavage and polyadenylation specificity factorGeneticsPost-transcriptional modificationRNA polymerase IIGeneRNAGene expressionMessenger RNAPromoterRNA Research and SplicingRNA modifications and cancerCancer-related gene regulation
Interplay between splicing and transcriptional pausing exerts genome-wide control over alternative polyadenylation | Litcius