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Global transcriptome analysis reveals circadian control of splicing events in <i>Arabidopsis thaliana</i>

Andrés Romanowski, Rubén Gustavo Schlaen, Soledad Perez-Santángelo, Estefanía Mancini, Marcelo J. Yanovsky

2020The Plant Journal103 citationsDOIOpen Access PDF

Abstract

The circadian clock of Arabidopsis thaliana controls many physiological and molecular processes, allowing plants to anticipate daily changes in their environment. However, developing a detailed understanding of how oscillations in mRNA levels are connected to oscillations in co/post-transcriptional processes, such as splicing, has remained a challenge. Here we applied a combined approach using deep transcriptome sequencing and bioinformatics tools to identify novel circadian-regulated genes and splicing events. Using a stringent approach, we identified 300 intron retention, eight exon skipping, 79 alternative 3' splice site usage, 48 alternative 5' splice site usage, and 350 multiple (more than one event type) annotated events under circadian regulation. We also found seven and 721 novel alternative exonic and intronic events. Depletion of the circadian-regulated splicing factor AtSPF30 homologue resulted in the disruption of a subset of clock-controlled splicing events. Altogether, our global circadian RNA-seq coupled with an in silico, event-centred, splicing analysis tool offers a new approach for studying the interplay between the circadian clock and the splicing machinery at a global scale. The identification of many circadian-regulated splicing events broadens our current understanding of the level of control that the circadian clock has over this co/post-transcriptional regulatory layer.

Topics & Concepts

RNA splicingCircadian clockBiologyAlternative splicingIntronCircadian rhythmArabidopsis thalianaTranscriptomeMinigeneGeneticsSplicing factorComputational biologyExonGeneRNAGene expressionNeuroscienceMutantRNA Research and SplicingRNA modifications and cancerRNA and protein synthesis mechanisms