School of Land and Food, University of Tasmania, 7001, Hobart, Tasmania, Australia.
School of BioSciences, The University of Melbourne, 3010, Parkville, Victoria, Australia.
Plant Cell Environ. 2017 Sep;40(9):1900-1915. doi: 10.1111/pce.12995. Epub 2017 Jul 18.
Epidermal bladder cells (EBCs) have been postulated to assist halophytes in coping with saline environments. However, little direct supporting evidence is available. Here, Chenopodium quinoa plants were grown under saline conditions for 5 weeks. One day prior to salinity treatment, EBCs from all leaves and petioles were gently removed by using a soft cosmetic brush and physiological, ionic and metabolic changes in brushed and non-brushed leaves were compared. Gentle removal of EBC neither initiated wound metabolism nor affected the physiology and biochemistry of control-grown plants but did have a pronounced effect on salt-grown plants, resulting in a salt-sensitive phenotype. Of 91 detected metabolites, more than half were significantly affected by salinity. Removal of EBC dramatically modified these metabolic changes, with the biggest differences reported for gamma-aminobutyric acid (GABA), proline, sucrose and inositol, affecting ion transport across cellular membranes (as shown in electrophysiological experiments). This work provides the first direct evidence for a role of EBC in salt tolerance in halophytes and attributes this to (1) a key role of EBC as a salt dump for external sequestration of sodium; (2) improved K retention in leaf mesophyll and (3) EBC as a storage space for several metabolites known to modulate plant ionic relations.
表皮膀胱细胞(EBC)被认为有助于盐生植物应对盐环境。然而,目前几乎没有直接的支持证据。在这里,藜科植物藜被种植在盐环境中 5 周。在盐处理前一天,使用柔软的化妆刷轻轻去除所有叶片和叶柄上的 EBC,并比较刷过和未刷过的叶片的生理、离子和代谢变化。轻轻去除 EBC 既不会引发伤口代谢,也不会影响对照生长植物的生理学和生物化学特性,但对盐生植物有明显的影响,导致盐敏感表型。在检测到的 91 种代谢物中,有一半以上受到盐度的显著影响。去除 EBC 显著改变了这些代谢变化,其中报道的最大差异是γ-氨基丁酸(GABA)、脯氨酸、蔗糖和肌醇,它们影响跨细胞膜的离子运输(如在电生理学实验中所示)。这项工作为 EBC 在盐生植物耐盐性中的作用提供了第一个直接证据,并将其归因于:(1)EBC 作为外部隔离钠离子的盐库的关键作用;(2)在叶肉中提高钾的保留;以及(3)EBC 作为几种已知调节植物离子关系的代谢物的储存空间。
