Abstract
Alternative splicing is a widespread phenomenon, which generates multiple isoforms of the gene product. Reproductive development is the key process for crop production. Although numerous forms of alternative splicing have been identified in model plants, large-scale study of alternative splicing dynamics during reproductive development in rice has not been conducted. Here, we investigated alternative splicing of reproductive development of young panicles (YP), unfertilized florets (UF) and fertilized florets (F) in rice using direct RNA sequencing, small RNA sequencing, and degradome sequencing. We identified a total of 35,317 alternative splicing (AS) events, among which 67.2% splicing events were identified as novel alternative splicing events. Intron retention (IR) was the most abundant alternative splicing subtype. Splicing factors that differentially expressed and alternatively spliced could result in global alternative splicing. Global analysis of miRNAs-targets prediction revealed that alternative spliced transcripts affected miRNAs’ targets during development. Degradome sequencing detected only 6.8% of the differentially alternative splicing transcripts, suggesting a productive transcripts generation during development. In addition, alternative splicing isoforms of Co-like, a transcription factor, interacted with Casein kinase 1-like protein HD1 (CKI) examined in luciferase assay, which could modulate normal male-floral organs development and flowering time. These results reveal that alternative splicing is intensely associated with developmental stages, and a high complexity of gene regulation.
Highlights
Alternative transcription initiation, splicing, polyadenylation and translation initiation are the four manners affecting gene expression levels, which determine protein diversity in eukaryotic cells interdependently
Overview of Rice Transcripts Detected by dRNA‐seq Alternative splicing is a widespread phenomenon, which is essential for post-transcriptional regulation mediating the mRNA stability and protein diversity of eukaryotic genomes
Floral organogenesis, sex cell development before fertilization and post-fertilization affect crop yield, thereby, a better understanding of the regulatory mechanisms in reproductive development is essential for improvements in agricultural practice (Sunkar and Jagadeeswaran 2008; Huijser and Schmid 2011)
Summary
Alternative transcription initiation, splicing, polyadenylation and translation initiation are the four manners affecting gene expression levels, which determine protein diversity in eukaryotic cells interdependently (de Klerk and AC‘t Hoen 2015). Li et al Rice (2021) 14:75 enhancers, are binded by different splicing factors, and subsequently caused the splicing events (Wang et al 2008). Splicing factors with different expression levels or activities regulate AS through different splice sites, which produce more than one spliced mRNA from one gene (James et al 2012). Five alternative splicing types are recognized in plants, namely intron retention (IR), exon skipping (ES), mutually exclusive exon (MEE), alternative 5′ splice sites (A5SS), and alternative 3′ splice sites (A3SS) (Barbazuk et al 2008). Some other plants display less AS events in intron-containing genes, for example, ~ 53% or less in rice (Zhang et al 2010; Dong et al 2018; Chen et al 2019) and ~ 24% in wheat (Liu et al 2018b)
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