Université Clermont Auvergne, INRA, PIAF, Clermont-Ferrand, France.
J Exp Bot. 2020 Jan 1;71(1):126-137. doi: 10.1093/jxb/erz418.
During the progression of root in soil, root cap cells are the first to encounter obstacles and are known to sense environmental cues, thus making the root cap a potential mechanosensing site. In this study, a two-layered growth medium system was developed in order to study root responses to variations in the physical strength of the medium and the importance of the root cap in the establishment of these responses. Root growth and trajectory of primary roots of Arabidopsis seedlings were investigated using in vivo image analysis. After contact with the harder layer of the medium, the root either penetrated it or underwent rapid curvature, thus enabling reorientation of growth. We initially hypothesized that the root-cap structure would affect apex penetration and reorientation, with pointed caps facilitating and domed caps impeding root penetration. This hypothesis was investigated by analysing the responses of Arabidopsis mutants with altered root caps. The primary root of lines of the fez-2 mutant, which has fewer root-cap cell layers and a more pointed root cap than wild-type roots, showed impaired penetration ability. Conversely, smb-3 roots, which display a rectangular-shaped cap, showed enhanced penetration abilities. These results, which contradict our original hypothesis, reveal a role for resistance to buckling in determining root penetration abilities.
在根系向土壤中生长的过程中,根冠细胞最先遇到障碍,并且已知其能感知环境线索,因此根冠可能是潜在的机械感受器。在这项研究中,开发了一种双层生长介质系统,以便研究根对介质物理强度变化的响应,以及根冠在建立这些响应中的重要性。通过体内图像分析研究了拟南芥幼苗主根的生长和轨迹。在与介质较硬的一层接触后,根要么穿透它,要么迅速弯曲,从而能够重新定向生长。我们最初假设根冠结构会影响根尖的穿透和重新定向,尖的根冠有利于穿透,而圆顶的根冠则阻碍穿透。通过分析具有不同根冠的拟南芥突变体的响应,验证了这一假说。与野生型相比,具有较少根冠细胞层和更尖根冠的 fez-2 突变体的主根穿透能力受损。相反,显示出矩形根冠的 smb-3 根表现出增强的穿透能力。这些与我们最初的假设相矛盾的结果表明,抵抗屈曲的能力在决定根的穿透能力方面起作用。
