Abstract

Alternative splicing is an important biological process in the generation of multiple functional transcripts from the same genomic sequences. Differential analysis of splice junctions (SJs) and intron retentions (IRs) is helpful in the detection of alternative splicing events. In this study, we conducted differential analysis of SJs and IRs by use of DEXSeq, a Bioconductor package originally designed for differential exon usage analysis in RNA-seq data analysis. We set up an analysis pipeline including mapping of RNA-seq reads, the preparation of count tables of SJs and IRs as the input files, and the differential analysis in DEXSeq. We analyzed the public RNA-seq datasets generated from RNAi experiments on Drosophila melanogaster S2-DRSC cells to deplete RNA-binding proteins (GSE18508). The analysis confirmed previous findings on the alternative splicing of the trol and Ant2 (sesB) genes in the CG8144 (ps)-depletion experiment and identified some new alternative splicing events in other RNAi experiments. We also identified IRs that were confirmed in our SJ analysis. The proposed method used in our study can output the genomic coordinates of differentially used SJs and thus enable sequence motif search. Sequence motif search and gene function annotation analysis helped us infer the underlying mechanism in alternative splicing events. To further evaluate this method, we also applied the method to public RNA-seq data from human breast cancer (GSE45419) and the plant Arabidopsis (SRP008262). In conclusion, our study showed that DEXSeq can be adapted to differential analysis of SJs and IRs, which will facilitate the identification of alternative splicing events and provide insights into the molecular mechanisms of transcription processes and disease development.

Highlights

  • Alternative splicing is an essential biological mechanism that controls gene expression and increases protein diversity

  • We report the applications of DEXSeq in alternative splicing analysis including intron retentions (IRs) analysis using RNA-seq data from the fruit fly Drosophila, the plant Arabidopsis, and human breast cancer

  • Our method provided the genomic coordinates of the significant Splice junctions (SJs), which allowed us to conduct a sequence motif search at the flanking sequence of significant SJs by differential analysis

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Summary

Introduction

Alternative splicing is an essential biological mechanism that controls gene expression and increases protein diversity. Alternative splicing can be generally categorized into four major groups: (1) exon skipping, (2) alternative 5’ splicing, (3) alternative 3’ splicing, and (4) intron retention (IR) [1,2,3]. Intron retentions, which are believed to come from unspliced or PLOS ONE | DOI:10.1371/journal.pone.0136653. Differential Splice Junction Usage and Intron Retentions doi:10.1371/journal.pone.0136653.g001 incompletely spliced pre-mRNAs, are the rarest type of alternative splicing in mammals and account for only approximately 3% of alternate transcripts [4, 5]. Splice junctions (SJs) are the exon-intron connections where splicing takes place; IRs are retained intron fragments in mRNA ([1,2,3], Fig 1). Differential analysis of SJs and IRs is helpful in the detection of alternative splicing events

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