Project description:We performed RNA-seq to determine the impact of XAB2 depletion on global splicing. The results show that XAB2 depletion using two different siRNAs led to a wide range of splicing defects, with more than 50% events were intron retention.
Project description:RNA sequencing was performed to identify long non-coding RNAs that are dysregulated upon hypoxia in breast cancer. Subsequently, the effect on splicing effiency (intron retention, exon skipping …) was investigated from RNA sequencing analysis upon knockdown of the candidate lncRNA and upon hypoxia.
Project description:We reported the effect of condensin binding to the genome upon SET1 knockdown. ChIP-seq experiments of condensin (NCAPH2) were performed in control and SET1 knockdown cells. We found that condensin binding was significantly reduced upon SET1 knockdown.
Project description:The spliceosome is a dynamic RNA-protein complex that executes pre-mRNA splicing and is composed of five core small nuclear ribonucleoprotein particles (U1, U2, U4/5/6 snRNP) and >150 additional proteins specific for each snRNP. We report a circadian role for Pre-mRNA Processing factor 4 (PRP4), a conserved component of the spliceosomal U4/U6.U5 triple small nuclear ribonucleoprotein (tri-snRNP) complex. We broadly hypothesized that downregulation of prp4 led to the aberrant splicing of one or many of the core clock transcripts. To identify these splicing events in an unbiased way, we performed RNA-Sequencing (RNA-Seq) analysis. We reasoned that we could have a more targeted approach if we could zoom in on the overlapping splicing changes that would be driven by the knockdown of at least two different tri-snRNP components. Because the pan-neuronal knockdown of all tri-snRNP components tested in our study led to lethality, we decided to utilize an alternative broad driver. For that purpose, we selected a strong eye-specific Glass Multiple Promoter driver (GMR-Gal4). Because most of the signal from head lysates comes directly from the eye tissue and because the core splicing factors are ubiquitously expressed, GMR-specific downregulation of prp4 and prp8 promised to be a viable alternative to the pan-neuronal knockdown. We examined changes in both the total transcript levels and splicing events upon prp4 knockdown in the eye. The overall gene expression seemed to be dramatically influenced by prp4 downregulation (433 DOWN, 310 UP at FDR < 0.05). Despite the fact that PRP4 is a component of the core spliceosome that is required for constitutive exon splicing, we did not detect dramatic effects on global splicing. Only 45 genes exhibited differential alternate splicing upon prp4 downregulation at FDR < 0.05).
Project description:The role of many splicing factors in pre-mRNA splicing and the involvement of these factors in the processing of specific transcripts have often been defined through the analysis of loss of function mutants in vivo. Here we show that inactivating the nonsense mediated mRNA decay (NMD) results in an enhancement of splicing phenotypes associated with several splicing factors mutations. Tiling microarrays showed that inactivation of the NMD factor Upf1p in the prp17Î and prp18Î mutant strains reveals a larger spectrum of splicing defects than what is observed in the single mutants, including new transcripts previously shown unaffected by Prp17p or Prp18p inactivation. In addition, inactivation of Upf1 in the prp22-1 mutant enhances the unspliced precursor accumulation phenotype of several specific transcripts and partially suppresses growth defects associated with the prp17Î or prp22-1 mutations. These results support the idea that RNA surveillance by NMD mutes some of the effects of splicing factors mutations and show that the roles of splicing factors and their transcripts specificity cannot be fully understood in vivo unless RNA degradation systems that degrade unspliced precursors are also inactivated. Three samples from the Prp17delta, Prp18delta, Prp17deltaUpf1delta and Prp18Upf1delta mutants were grown indepedently and analyzed by tiling arrays to understand the role of the NMD component Upf1 in minimizing the accumulation of unspliced RNAs generated by the Prp17delta and Prp18delta splicing mutations.
Project description:To systematically explore the functions of core splicing factors and regulators in alternative splicing, RNA-seq analyses were carried out upon the knockdown of over 305 splicing-related factors.
Project description:This project looks into experimentally identifying all minor introns by knocking down the minor spliceosome's catalytic snRNP, U6atac. Knockdown of U6atac by antisense morpholino followed by examining mRNA splicing by RNA-seq
Project description:This experiment analyzes the global proteome and phosphoproteome in YAP amplified cell lines upon YAP knockdown and/or MEK inhibition.