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Pervasive misannotation of microexons that are evolutionarily conserved and crucial for gene function in plants

https://doi.org/10.1038/s41467-022-28449-8

Yu, Huihui; Li, Mu; Sandhu, Jaspreet; Sun, Guangchao; Schnable, James C.; Walia, Harkamal; Xie, Weibo; Yu, Bin; Mower, Jeffrey P.; Zhang, Chi (February 2022, Nature Communications)

Abstract It is challenging to identify the smallest microexons (≤15-nt) due to their small size. Consequently, these microexons are often misannotated or missed entirely during genome annotation. Here, we develop a pipeline to accurately identify 2,398 small microexons in 10 diverse plant species using 990 RNA-seq datasets, and most of them have not been annotated in the reference genomes. Analysis reveals that microexons tend to have increased detained flanking introns that require post-transcriptional splicing after polyadenylation. Examination of 45 conserved microexon clusters demonstrates that microexons and associated gene structures can be traced back to the origin of land plants. Based on these clusters, we develop an algorithm to genome-wide model coding microexons in 132 plants and find that microexons provide a strong phylogenetic signal for plant organismal relationships. Microexon modeling reveals diverse evolutionary trajectories, involving microexon gain and loss and alternative splicing. Our work provides a comprehensive view of microexons in plants.