Abstract
ABSTRACTAlternative splicing (AS) and alternative promoter (AP) usage expand the repertories of mammalian transcriptome profiles and thus diversify gene functions. However, our knowledge about the extent and functions of AS and AP usage in mouse early embryogenesis remains elusive. Here, by performing whole-transcriptome splicing profiling with high-throughput next generation sequencing, we report that AS extensively occurs in embryonic day (E) 7.5 mouse primary germ layers, and may be involved in multiple developmental processes. In addition, numerous RNA splicing factors are differentially expressed and alternatively spliced across the three germ layers, implying the potential importance of AS machinery in shaping early embryogenesis. Notably, AP usage is remarkably frequent at this stage, accounting for more than one quarter (430/1,648) of the total significantly different AS events. Genes generating the 430 AP events participate in numerous biological processes, and include important regulators essential for mouse early embryogenesis, suggesting that AP usage is widely used and might be relevant to mouse germ layer specification. Our data underline the potential significance of AP usage in mouse gastrulation, providing a rich data source and opening another dimension for understanding the regulatory mechanisms of mammalian early development.
Highlights
Sophisticated spatial-temporal regulation of gene expression is a prerequisite for proper mammalian development
We analyze the alternative splicing (AS) events with RNA-seq data from the three embryonic germ layers of E7.5 mouse embryos and provide a landscape of AS patterns, and their potential regulation of development in gastrulating and post-gastrulation mouse embryos
We find that AS is widely used and may be involved in regulation of multiple processes in mouse early embryogenesis
Summary
Sophisticated spatial-temporal regulation of gene expression is a prerequisite for proper mammalian development. Transgenic and gene-targeted mice models have contributed greatly to elucidation of the functions and molecular mechanisms of these. Regulation of gene expression during development by alternative splicing (AS) and alternative promoter (AP) usage has begun to be brought to the fore as important candidate machineries to regulate multiple biological processes (Baralle and Giudice, 2017)
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