Gu Mian, Hu Xu, Wang Tingting, Xu Guohua
State Key Laboratory of Crop Genetics and Germplasm Enhancement, Nanjing Agricultural University, Nanjing 210095, China.
MOA Key Laboratory of Plant Nutrition and Fertilization in Lower-Middle Reaches of the Yangtze River, Nanjing 210095, China.
Breed Sci. 2021 Feb;71(1):62-75. doi: 10.1270/jsbbs.20102. Epub 2020 Dec 25.
As sessile organisms, plants rely on their roots for anchorage and uptake of water and nutrients. Plant root is an organ showing extensive morphological and metabolic plasticity in response to diverse environmental stimuli including nitrogen (N) and phosphorus (P) nutrition/stresses. N and P are two essential macronutrients serving as not only cell structural components but also local and systemic signals triggering root acclimatory responses. Here, we mainly focused on the current advances on root responses to N and P nutrition/stresses regarding transporters as well as long-distance mobile proteins and peptides, which largely represent local and systemic regulators, respectively. Moreover, we exemplified some of the potential pitfalls in experimental design, which has been routinely adopted for decades. These commonly accepted methods may help researchers gain fundamental mechanistic insights into plant intrinsic responses, yet the output might lack strong relevance to the real situation in the context of natural and agricultural ecosystems. On this basis, we further discuss the established-and yet to be validated-improvements in experimental design, aiming at interpreting the data obtained under laboratory conditions in a more practical view.
作为固着生物,植物依靠根系来固定植株,并吸收水分和养分。植物根系是一个器官,在响应包括氮(N)和磷(P)营养/胁迫在内的多种环境刺激时,表现出广泛的形态和代谢可塑性。氮和磷是两种必需的大量元素,它们不仅是细胞结构成分,也是触发根系适应性反应的局部和系统信号。在这里,我们主要关注根系对氮和磷营养/胁迫的反应在转运蛋白以及长距离移动蛋白和肽方面的最新进展,它们在很大程度上分别代表局部和系统调节因子。此外,我们举例说明了实验设计中一些潜在的缺陷,这些缺陷几十年来一直被常规采用。这些普遍接受的方法可能有助于研究人员深入了解植物的内在反应机制,但研究结果可能与自然和农业生态系统背景下的实际情况缺乏紧密相关性。在此基础上,我们进一步讨论实验设计中已有的以及有待验证的改进措施,旨在从更实际的角度解释在实验室条件下获得的数据。
