Sun Cui-Hui, Yu Jian-Qiang, Hu Da-Gang
National Key Laboratory of Crop Biology, Shandong Agricultural UniversityTai'An, China.
Ministry of Agriculture Key Laboratory of Horticultural Crop Biology and Germplasm Innovation, Shandong Agricultural UniversityTai'An, China.
Front Plant Sci. 2017 Apr 4;8:485. doi: 10.3389/fpls.2017.00485. eCollection 2017.
Root plasticity is an important trait for plants to forage nutrient and adapt to survival in a complicated environment. Lateral roots (LRs) are generally more sensitive than primary roots in response to changing environmental conditions. As the main source of nitrogen for most higher plants, nitrate acting as a signal has received great attention in the regulation of LR development. In general, there are dual effects including stimulatory and inhibitory of low nitrate on LR development; while high nitrate supply has an inhibitory effect on LR development; nitrate heterogeneity also has a stimulatory effect on LR development in [Formula: see text]- rich zone. Here, we focus on recent progresses in the role of a nitrate signal in the regulation of the LRs development.
根系可塑性是植物获取养分并适应复杂环境生存的重要特性。侧根通常比主根对环境条件变化更为敏感。作为大多数高等植物的主要氮源,硝酸盐作为一种信号在侧根发育调控中受到了广泛关注。一般来说,低硝酸盐对侧根发育有刺激和抑制双重作用;而高硝酸盐供应对侧根发育有抑制作用;硝酸盐异质性对富含[公式:见原文]区域的侧根发育也有刺激作用。在此,我们聚焦于硝酸盐信号在侧根发育调控中作用的最新进展。