Skotomorphogenesis exploits threonine to promote hypocotyl elongation.

Quantitative Plant Biology Pub Date : 2022-11-22 eCollection Date: 2022-01-01 DOI:10.1017/qpb.2022.19
Hiromitsu Tabeta, Yasuhiro Higashi, Yozo Okazaki, Kiminori Toyooka, Mayumi Wakazaki, Mayuko Sato, Kazuki Saito, Masami Y Hirai, Ali Ferjani
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Abstract

Mobilisation of seed storage reserves is important for seedling establishment in Arabidopsis. In this process, sucrose is synthesised from triacylglycerol via core metabolic processes. Mutants with defects in triacylglycerol-to-sucrose conversion display short etiolated seedlings. We found that whereas sucrose content in the indole-3-butyric acid response 10 (ibr10) mutant was significantly reduced, hypocotyl elongation in the dark was unaffected, questioning the role of IBR10 in this process. To dissect the metabolic complexity behind cell elongation, a quantitative-based phenotypic analysis combined with a multi-platform metabolomics approach was applied. We revealed that triacylglycerol and diacylglycerol breakdown were disrupted in ibr10, resulting in low sugar content and poor photosynthetic ability. Importantly, batch-learning self-organised map clustering revealed that threonine level was correlated with hypocotyl length. Consistently, exogenous threonine supply stimulated hypocotyl elongation, indicating that sucrose levels are not always correlated with etiolated seedling length, suggesting the contribution of amino acids in this process.

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皮层形态发生利用苏氨酸促进下胚轴伸长
种子贮藏储备的调动对于拟南芥幼苗的建立非常重要。在这一过程中,蔗糖通过核心代谢过程从三酰甘油合成。在三酰甘油到蔗糖的转化过程中存在缺陷的突变体会表现出短幼苗。我们发现,虽然吲哚-3-丁酸反应 10(ibr10)突变体中的蔗糖含量显著降低,但下胚轴在黑暗中的伸长却不受影响,这对 IBR10 在这一过程中的作用提出了质疑。为了剖析细胞伸长背后复杂的代谢过程,我们采用了基于表型的定量分析和多平台代谢组学方法。我们发现,ibr10 中的三酰甘油和二酰甘油分解被破坏,导致糖含量低和光合作用能力差。重要的是,批量学习自组织图聚类发现苏氨酸水平与下胚轴长度相关。一致的是,外源苏氨酸的供应刺激了下胚轴的伸长,这表明蔗糖水平并不总是与叶绿体幼苗的长度相关,暗示了氨基酸在这一过程中的作用。
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