AtBUD13 affects pre‐mRNA splicing and is essential for embryo development in Arabidopsis

Summary Pre‐mRNA splicing is an important step for gene expression regulation. Yeast Bud13p (bud‐site selection protein 13) regulates the budding pattern and pre‐mRNA splicing in yeast cells; however, no Bud13p homologs have been identified in plants. Here, we isolated two mutants that carry T‐DNA i...

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Veröffentlicht in:The Plant journal : for cell and molecular biology 2019-05, Vol.98 (4), p.714-726
Hauptverfasser: Xiong, Feng, Ren, Jing‐Jing, Yu, Qin, Wang, Yu‐Yi, Kong, Lan‐Jing, Otegui, Marisa S., Wang, Xiu‐Ling
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Sprache:eng
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Zusammenfassung:Summary Pre‐mRNA splicing is an important step for gene expression regulation. Yeast Bud13p (bud‐site selection protein 13) regulates the budding pattern and pre‐mRNA splicing in yeast cells; however, no Bud13p homologs have been identified in plants. Here, we isolated two mutants that carry T‐DNA insertions at the At1g31870 locus and shows early embryo lethality and seed abortion. At1g31870 encodes an Arabidopsis homolog of yeast Bud13p, AtBUD13. Although AtBUD13 homologs are widely distributed in eukaryotic organisms, phylogenetic analysis revealed that their protein domain organization is more complex in multicellular species. AtBUD13 is expressed throughout plant development including embryogenesis and AtBUD13 proteins is localized in the nucleus in Arabidopsis. RNA‐seq analysis revealed that AtBUD13 mutation predominantly results in the intron retention, especially for shorter introns (≤100 bases). Within this group of genes, we identified 52 genes involved in embryogenesis, out of which 22 are involved in nucleic acid metabolism. Our results demonstrate that AtBUD13 plays critical roles in early embryo development by effecting pre‐mRNA splicing. Significance Statement This study shows that AtBUD13, an Arabidopsis homolog of the yeast Bud13p splicing factor, is required for the efficient pre‐mRNA splicing of a subset of genes involved in early embryonic development and is essential for seed formation. Our results provide insights into the functions of AtBUD13 in early embryo development by effecting post‐transcriptional regulation of gene expression in Arabidopsis.
ISSN:0960-7412
1365-313X
DOI:10.1111/tpj.14268