Aleamotu'a Maketalena, Tai Yu-Ting, McCurdy David W, Collings David A
School of Environmental and Life Sciences, The University of Newcastle, Callaghan, NSW 2308, Australia.
Plants (Basel). 2018 Jun 19;7(2):47. doi: 10.3390/plants7020047.
Phi thickenings are specialized bands of secondary wall deposited around radial walls of root cortical cells. These structures have been reported in various species from the Brassicaceae, including , where previous reports using hydroponics indicated that they can be induced by exposure to salt. Using roots grown on agar plates, we show that both salt and sucrose can induce the formation of phi thickenings in a diverse range of species within the Brassicaceae. Within the genus , both and demonstrated the formation of phi thickenings, but in a strongly cultivar-specific manner. Confocal microscopy of phi thickenings showed that they form a complex network of reinforcement surrounding the inner root cortex, and that a delicate, reticulate network of secondary wall deposition can also variously form on the inner face of the cortical cell layer with phi thickenings adjacent to the endodermal layer. Results presented here indicate that phi thickenings can be induced in response to salt and water stress and that wide variation occurs in these responses even within the same species.
φ增厚是围绕根皮层细胞径向壁沉积的次生壁特化带。这些结构已在十字花科的各种物种中被报道,包括 ,之前使用水培法的报告表明它们可以通过暴露于盐中而被诱导形成。利用在琼脂平板上生长的根,我们表明盐和蔗糖都可以诱导十字花科内多种物种形成φ增厚。在 属内, 和 都表现出φ增厚的形成,但具有强烈的品种特异性。对φ增厚的共聚焦显微镜观察表明,它们形成了围绕根内皮层的复杂增强网络,并且在与内皮层相邻的具有φ增厚的皮层细胞层内表面上也可以不同程度地形成精细的网状次生壁沉积网络。这里呈现的结果表明,φ增厚可以响应盐和水分胁迫而被诱导,并且即使在同一物种内,这些响应也存在广泛差异。