Ferjani Ali, Hanai Kenya, Gunji Shizuka, Maeda Saori, Sawa Shinichiro, Tsukaya Hirokazu
a Department of Biology ; Tokyo Gakugei University ; Koganei-shi ; Tokyo , Japan.
Plant Signal Behav. 2015;10(4):e992755. doi: 10.4161/15592324.2014.992755.
The postembryonic development of aboveground plant organs relies on a continuous supply of cells from the shoot apical meristem. Previous studies of developmental regulation in leaves and flowers have revealed the crucial role of coordinated cell proliferation and differentiation during organogenesis. However, the importance of this coordination has not been examined in flowering stems. Very recently, we attempted to identify regulatory factors that maintain flowering stem integrity. We found that the increased cell number in clavata (clv) mutants and the decreased cell size in de-etiolated (det)3-1 resulted in flowering stems that were thicker and thinner, respectively, than in wild-type (WT) plants. Interestingly, in the cell proliferation- and cell expansion-defective double mutant clv det3-1, the flowering stems often exhibited severe cracking, resulting in exposure of their inner tissues. In this study, further quantification of the cellular phenotypes in the cotyledons and leaves revealed no differences between det3-1 and clv3 det3-1. Together, the above findings suggest that the clv3 mutation in a det3-1 background primarily affects flowering stems, while its effect on other organs is likely negligible. We propose that the coordination between cell proliferation and differentiation is not only important during leaf development, but also plays a role in the growth control of Arabidopsis flowering stems.
地上植物器官的胚后发育依赖于来自茎尖分生组织的细胞持续供应。先前对叶片和花发育调控的研究揭示了器官发生过程中细胞增殖与分化协调的关键作用。然而,这种协调在花茎中的重要性尚未得到研究。最近,我们试图鉴定维持花茎完整性的调控因子。我们发现,clavata(clv)突变体中细胞数量增加以及去黄化(det)3-1中细胞大小减小,分别导致花茎比野生型(WT)植物的更粗和更细。有趣的是,在细胞增殖和细胞扩张缺陷的双突变体clv det3-1中,花茎常常出现严重开裂,导致其内部组织暴露。在本研究中,对子叶和叶片中细胞表型的进一步定量分析表明,det3-1与clv3 det3-1之间没有差异。综上所述,上述发现表明,在det3-1背景下的clv3突变主要影响花茎,而其对其他器官的影响可能微不足道。我们提出,细胞增殖与分化之间的协调不仅在叶片发育过程中很重要,而且在拟南芥花茎的生长控制中也发挥作用。