Regulation of constitutive and alternative mRNA splicing across the human transcriptome by PRPF8 is determined by 5' splice site strength
Autor: | John C. Marioni, Jernej Ule, Arthur R. Bartolozzi, David Perera, Mar Gonzàlez-Porta, Vihandha O. Wickramasinghe, Martina Hallegger, Ashok R. Venkitaraman, Christopher R. Sibley |
---|---|
Přispěvatelé: | Marioni, John [0000-0001-9092-0852], Apollo - University of Cambridge Repository |
Rok vydání: | 2020 |
Předmět: |
RNA
Messenger/genetics Spliceosome Bioinformatics Alternative Splicing/genetics Retinitis Pigmentosa/genetics 05 Environmental Sciences RNA-binding protein Biology Introns/genetics Exon Minor spliceosome Exons/genetics Humans RNA Messenger Spliceosomes/genetics Ribonucleoproteins/genetics Genetics 08 Information And Computing Sciences Genome Research Alternative splicing Intron RNA-Binding Proteins Exons Transcriptome/genetics 06 Biological Sciences RNA-Binding Proteins/genetics Introns Cell biology Alternative Splicing Polypyrimidine tract Ribonucleoproteins RNA splicing Mutation Spliceosomes RNA Splice Sites Transcriptome Retinitis Pigmentosa |
Zdroj: | Genome Biology Wickramasinghe, V O, Gonzàlez-Porta, M, Perera, D, Bartolozzi, A R, Sibley, C R, Hallegger, M, Ule, J, Marioni, J C & Venkitaraman, A R 2015, ' Regulation of constitutive and alternative mRNA splicing across the human transcriptome by PRPF8 is determined by 5' splice site strength ', Genome Biology, vol. 16, pp. 201 . https://doi.org/10.1186/s13059-015-0749-3 |
DOI: | 10.17863/cam.49404 |
Popis: | Background Sequential assembly of the human spliceosome on RNA transcripts regulates splicing across the human transcriptome. The core spliceosome component PRPF8 is essential for spliceosome assembly through its participation in ribonucleoprotein (RNP) complexes for splice-site recognition, branch-point formation and catalysis. PRPF8 deficiency is linked to human diseases like retinitis pigmentosa or myeloid neoplasia, but its genome-wide effects on constitutive and alternative splicing remain unclear. Results Here, we show that alterations in RNA splicing patterns across the human transcriptome that occur in conditions of restricted cellular PRPF8 abundance are defined by the altered splicing of introns with weak 5′ splice sites. iCLIP of spliceosome components reveals that PRPF8 depletion decreases RNP complex formation at most splice sites in exon–intron junctions throughout the genome. However, impaired splicing affects only a subset of human transcripts, enriched for mitotic cell cycle factors, leading to mitotic arrest. Preferentially retained introns and differentially used exons in the affected genes contain weak 5′ splice sites, but are otherwise indistinguishable from adjacent spliced introns. Experimental enhancement of splice-site strength in mini-gene constructs overcomes the effects of PRPF8 depletion on the kinetics and fidelity of splicing during transcription. Conclusions Competition for PRPF8 availability alters the transcription-coupled splicing of RNAs in which weak 5′ splice sites predominate, enabling diversification of human gene expression during biological processes like mitosis. Our findings exemplify the regulatory potential of changes in the core spliceosome machinery, which may be relevant to slow-onset human genetic diseases linked to PRPF8 deficiency. Electronic supplementary material The online version of this article (doi:10.1186/s13059-015-0749-3) contains supplementary material, which is available to authorized users. |
Databáze: | OpenAIRE |
Externí odkaz: |