Expression of cell-wall related genes is highly variable and correlates with sepal morphology

Diego A. Hartasánchez, Annamaria Kiss, Virginie Battu, Charline Soraru, Abigail Delgado-Vaquera, Florian Massinon, Marina Brasó-Vives, Corentin Mollier, Marie-Laure Martin-Magniette, Arezki Boudaoud, Françoise Monéger
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Abstract

Control of organ morphology is a fundamental feature of living organisms. There is, however, observable variation in organ size and shape within a given genotype. Taking the sepal of Arabidopsis as a model, we investigated whether we can use variability of gene expression alongside variability of organ morphology to identify gene regulatory networks potentially involved in organ size and shape determination. We produced a dataset composed of morphological parameters and genome-wide transcriptome obtained from 27 individual sepals from wild-type plants with nearly identical genetic backgrounds, environment, and developmental stage. Sepals exhibited appreciable variability in both morphology and transcriptome, with response to stimulus genes and cell-wall related genes displaying high variability in expression. We additionally identified five modules of co-expressed genes which correlated significantly with morphology, revealing biologically relevant gene regulatory networks. Interestingly, cell-wall related genes were overrepresented in two of the top three modules. Overall, our work highlights the benefit of using coupled variation in gene expression and phenotype in wild-type plants to shed light on the mechanisms underlying organ size and shape determination. Although causality between gene expression and sepal morphology has not been established, our approach opens the way to informed analysis for mutant characterization and functional studies.
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细胞壁相关基因的表达是高度可变的,并与萼片形态相关
器官形态的控制是生物体的一个基本特征。然而,在一个给定的基因型中,器官的大小和形状有可观察到的变化。以拟南芥萼片为模型,我们研究了是否可以利用基因表达的变异性和器官形态的变异性来识别可能参与器官大小和形状决定的基因调控网络。我们建立了一个由形态学参数和全基因组转录组组成的数据集,这些数据集来自27个具有几乎相同遗传背景、环境和发育阶段的野生型植物的萼片。萼片在形态和转录组上都表现出明显的可变性,对刺激基因和细胞壁相关基因的响应表现出高度的可变性。我们还鉴定了5个与形态学显著相关的共表达基因模块,揭示了生物学上相关的基因调控网络。有趣的是,细胞壁相关基因在前三个模块中的两个中被过度代表。总的来说,我们的工作强调了在野生型植物中使用基因表达和表型的耦合变异来揭示器官大小和形状决定的机制的好处。虽然基因表达和萼片形态之间的因果关系尚未建立,但我们的方法为突变体特征和功能研究的知情分析开辟了道路。
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