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Parental conflict driven regulation of endosperm cellularization by a family of Auxin Response Factors.

Nicolas ButelY QiuW XuJ Santos-GonzálezClaudia Köhler
Published in: Nature plants (2024)
The endosperm is a reproductive tissue supporting embryo development. In most flowering plants, the initial divisions of endosperm nuclei are not succeeded by cellularization; this process occurs only after a specific number of mitotic cycles have taken place. The timing of cellularization significantly influences seed viability and size. Previous research implicated auxin as a key factor in initiating nuclear divisions and determining the timing of cellularization. Here we uncover the involvement of a family of clustered auxin response factors (cARFs) as dosage-sensitive regulators of endosperm cellularization. cARFs, maternally expressed and paternally silenced, are shown to induce cellularization, thereby restricting seed growth. Our findings align with the predictions of the parental conflict theory, suggesting that cARFs represent major molecular targets in this conflict. We further demonstrate a recurring amplification of cARFs in the Brassicaceae, suggesting an evolutionary response to parental conflict by reinforcing maternal control over endosperm cellularization. Our study highlights that antagonistic parental control on endosperm cellularization converges on auxin biosynthesis and signalling.
Keyphrases
  • arabidopsis thaliana
  • gene expression
  • pregnant women
  • transcription factor
  • cell cycle
  • cell proliferation
  • body mass index
  • birth weight
  • dna methylation
  • nucleic acid
  • gestational age