Laboratory of Plant Physiology and Molecular Genetics, Université Libre de Bruxelles, Bd du Triomphe, B-1050 Brussels, Belgium.
Department of Plant Systems Biology, VIB, B-9052 Ghent, Belgium.
New Phytol. 2010 Jul;187(1):119-131. doi: 10.1111/j.1469-8137.2010.03258.x. Epub 2010 Apr 16.
*Plant growth and development ultimately depend on environmental variables such as the availability of essential minerals. Unravelling how nutrients affect gene expression will help to understand how they regulate plant growth. *This study reports the early transcriptomic response to magnesium (Mg) deprivation in Arabidopsis. Whole-genome transcriptome was studied in the roots and young mature leaves 4, 8 and 28 h after the removal of Mg from the nutrient solution. *The highest number of regulated genes was first observed in the roots. Contrary to other mineral deficiencies, Mg depletion did not induce a higher expression of annotated genes in Mg uptake. Remarkable responses include the perturbation of the central oscillator of the circadian clock in roots and the triggering of abscisic acid (ABA) signalling, with half of the up-regulated Mg genes in leaves being ABA-responsive. However, no change in ABA content was observed. *The specificity of the response of some Mg-regulated genes was challenged by studying their expression after other mineral deficiencies and environmental stresses. The possibility to develop markers for Mg incipient deficiency is discussed here.
*植物的生长和发育最终取决于环境变量,如必需矿物质的可用性。揭示营养物质如何影响基因表达将有助于了解它们如何调节植物生长。*本研究报告了拟南芥在镁(Mg)缺乏时的早期转录组响应。在从营养液中去除 Mg 后 4、8 和 28 小时,研究了根部和幼嫩叶中的全基因组转录组。*在根部观察到调节基因的数量最多。与其他矿物质缺乏不同,Mg 耗尽不会诱导 Mg 吸收中注释基因的更高表达。显著的反应包括根中环流钟中央振荡器的扰动和脱落酸(ABA)信号的触发,叶片中一半上调的 Mg 基因对 ABA 有反应。然而,未观察到 ABA 含量的变化。*通过研究其他矿物质缺乏和环境胁迫后这些基因的表达,对一些受 Mg 调控基因的反应特异性提出了挑战。本文讨论了开发 Mg 初期缺乏标志物的可能性。
