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Regulation of micro- and small-exon retention and other splicing processes by GRP20 for flower development

Jun Wang, Xinwei Ma, Yi Hu, Guanhua Feng, Chunce Guo, Xin Zhang, Hong Mā

2024Nature Plants15 citationsDOIOpen Access PDF

Abstract

Pre-mRNA splicing is crucial for gene expression and depends on the spliceosome and splicing factors. Plant exons have an average size of ~180 nucleotides and typically contain motifs for interactions with spliceosome and splicing factors. Micro exons (<51 nucleotides) are found widely in eukaryotes and in genes for plant development and environmental responses. However, little is known about transcript-specific regulation of splicing in plants and about the regulators for micro exon splicing. Here we report that glycine-rich protein 20 (GRP20) is an RNA-binding protein and required for splicing of ~2,100 genes including those functioning in flower development and/or environmental responses. Specifically, GRP20 is required for micro-exon retention in transcripts of floral homeotic genes; these micro exons are conserved across angiosperms. GRP20 is also important for small-exon (51-100 nucleotides) splicing. In addition, GRP20 is required for flower development. Furthermore, GRP20 binds to poly-purine motifs in micro and small exons and a spliceosome component; both RNA binding and spliceosome interaction are important for flower development and micro-exon retention. Our results provide new insights into the mechanisms of micro-exon retention in flower development.

Topics & Concepts

ExonRNA splicingBiologyCell biologyAlternative splicingComputational biologyGeneticsGeneRNAPlant Molecular Biology ResearchRNA Research and SplicingPlant Reproductive Biology