The miRNA822 loaded by ARGONAUTE9 modulates the monosporic female gametogenesis in Arabidopsis thaliana

Key message The miR822 together with of AGO9 protein, modulates monosporic development in Arabidopsis thaliana through the regulation of target genes encoding Cysteine/Histidine-Rich C1 domain proteins, revealing a new role of miRNAs in the control of megaspore formation in flowering plants. In the...

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Published in:Plant reproduction 2024-06, Vol.37 (2), p.243-258
Main Authors: Tovar-Aguilar, Andrea, Grimanelli, Daniel, Acosta-García, Gerardo, Vielle-Calzada, Jean-Philippe, Badillo-Corona, Jesús Agustín, Durán-Figueroa, Noé
Format: Article
Language:English
Subjects:
Agriculture
Arabidopsis
Arabidopsis - genetics
Arabidopsis - metabolism
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
Arabidopsis thaliana
Argonaute Proteins - genetics
Argonaute Proteins - metabolism
Biomedical and Life Sciences
Cell Biology
Cell differentiation
Cysteine
domain
Females
Flowering
Flowering plants
Gametogenesis
Gametogenesis, Plant - genetics
Gametophytes
Gene Expression Regulation, Plant
Gene regulation
Genes
haploidy
Histidine
Life Sciences
loss-of-function mutation
Magnoliophyta
megaspores
megasporocytes
Meiosis
microRNA
MicroRNAs - genetics
MicroRNAs - metabolism
mitosis
Molecular modelling
Mutants
Original Article
Ovule - genetics
Ovule - growth & development
Ovules
Plant Sciences
Plants (botany)
Proteins
somatic cells
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Summary:Key message The miR822 together with of AGO9 protein, modulates monosporic development in Arabidopsis thaliana through the regulation of target genes encoding Cysteine/Histidine-Rich C1 domain proteins, revealing a new role of miRNAs in the control of megaspore formation in flowering plants. In the ovule of flowering plants, the establishment of the haploid generation occurs when a somatic cell differentiates into a megaspore mother cell (MMC) and initiates meiosis. As most flowering plants, Arabidopsis thaliana (Arabidopsis) undergoes a monosporic type of gametogenesis as three meiotically derived cells degenerate, and a single one—the functional megaspore (FM), divides mitotically to form the female gametophyte. The genetic basis and molecular mechanisms that control monosporic gametophyte development remain largely unknown. Here, we show that Arabidopsis plants carrying loss-of-function mutations in the miR822, give rise to extranumerary surviving megaspores that acquire a FM identity and divides without giving rise to differentiated female gametophytes. The overexpression of three miR822 putative target genes encoding cysteine/histidine-rich C1 (DC1) domain proteins, At5g02350, At5g02330 and At2g13900 results in defects equivalent to those found in mutant mir822 plants. The three miR822 targets genes are overexpressed in ago9 mutant ovules, suggesting that miR822 acts through an AGO9-dependent pathway to negatively regulate DC1 domain proteins and restricts the survival of meiotically derived cells to a single megaspore. Our results identify a mechanism mediated by the AGO9-miR822 complex that modulates monosporic female gametogenesis in Arabidopsis thaliana.
ISSN:2194-7953
2194-7961
2194-7961
DOI:10.1007/s00497-023-00487-2