MIR164B ensures robust Arabidopsis leaf development by compensating for compromised POLYCOMB REPRESSIVE COMPLEX2 function

Aude Maugarny, Aurélie Vialette, Bernard Adroher, Anne-Sophie Sarthou, Nathalie Mathy-Franchet, Marianne Azzopardi, Antoine Nicolas, François Roudier, Patrick Laufs
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Abstract

Robustness is pervasive throughout biological systems, enabling them to maintain persistent outputs despite perturbations in their components. Here, we reveal a mechanism contributing to leaf morphology robustness in the face of genetic perturbations. In Arabidopsis (Arabidopsis thaliana), leaf shape is established during early development through the quantitative action of the CUP-SHAPED COTYLEDON2 (CUC2) protein, whose encoding gene is negatively regulated by the co-expressed MICRORNA164A (MIR164A) gene. Compromised epigenetic regulation due to defective Polycomb Repressive Complex 2 (PRC2) function results in the transcriptional derepression of CUC2 but has no impact on CUC2 protein dynamics or early morphogenesis. We solve this apparent paradox by showing that compromised PRC2 function simultaneously derepresses the expression of another member of the MIR164 gene family, MIR164B. This mechanism dampens CUC2 protein levels, thereby compensating for compromised PRC2 function and canalizing early leaf morphogenesis. Furthermore, we show that this compensation mechanism is active under different environmental conditions. Our findings shed light on how the interplay between different steps of gene expression regulation can contribute to developmental robustness.
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MIR164B 可弥补 POLYCOMB REPRESSIVE COMPLEX2 功能的缺陷,从而确保拟南芥叶片的稳健发育
稳健性在整个生物系统中普遍存在,它使生物系统在其组成部分受到干扰的情况下仍能保持持续的输出。在这里,我们揭示了一种有助于叶片形态在面对遗传扰动时保持稳健性的机制。在拟南芥(Arabidopsis thaliana)中,叶片形状是在早期发育过程中通过CUP-SHAPED COTYLEDON2(CUC2)蛋白的定量作用建立起来的,CUC2蛋白的编码基因受共同表达的MICRORNA164A(MIR164A)基因的负调控。由于多聚核抑制复合体 2(PRC2)功能缺陷导致的表观遗传调控失灵会导致 CUC2 的转录抑制减弱,但对 CUC2 蛋白的动态或早期形态发生却没有影响。我们通过研究发现,PRC2 功能受损会同时抑制 MIR164 基因家族另一成员 MIR164B 的表达,从而解决了这一明显的悖论。这一机制抑制了 CUC2 蛋白水平,从而弥补了 PRC2 功能的缺陷,并使早期叶片形态发生得以渠化。此外,我们还发现这种补偿机制在不同的环境条件下都很活跃。我们的发现揭示了基因表达调控的不同步骤之间的相互作用如何有助于发育的稳健性。
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