Department of Biology, Trent University, Peterborough, Ontario, Canada K9J 7B8.
Plant Physiol Biochem. 2013 Mar;64:84-91. doi: 10.1016/j.plaphy.2012.12.018. Epub 2013 Jan 24.
Plant hormones, including abscisic acid (ABA) and cytokinins (CKs), fluctuate as a result of excess metal exposure. Changes in hormonal concentration regulate plant growth and may also signal activation of metal chelators. The grass Deschampsia cespitosa was dosed with either Ni or Cd or pulsed with exogenous ABA. The roots were analyzed for ABA and CKs and for multiple potential metal chelators including: amino acids, nicotianamine (NA), and phytochelatins (PCs). They were quantified after 3 h and after 7 days, using LC-ESI MS/MS. The Ni treatment caused no measurable change in ABA or CK concentration; however, an increase in NA was documented. The Cd treatment resulted in a short-term ABA increase followed by a reduction in CKs and an increase in PC concentration. An exogenous ABA pulse in non-metal challenged plants induced changes in CKs and PCs that followed those of Cd treatment. Ni and Cd stress resulted in distinctly different detoxification responses. Since the reaction of CKs and putative metal chelators to Cd stress can be mimicked by an exogenous ABA pulse, it is suggested that ABA acts as a stress signal, resulting in reduced growth by way of decreased CK concentration and reduced metal toxicity through increased PC production.
植物激素,包括脱落酸(ABA)和细胞分裂素(CKs),由于过量金属暴露而波动。激素浓度的变化调节植物生长,也可能发出金属螯合剂激活的信号。用镍或镉处理草地早熟禾,或用外源 ABA 脉冲处理。用 LC-ESI MS/MS 在 3 小时和 7 天后分析根中的 ABA 和 CK 以及多种潜在的金属螯合剂,包括:氨基酸、烟碱胺(NA)和植物螯合肽(PCs)。镍处理对 ABA 或 CK 浓度没有可测量的变化,但记录到 NA 增加。镉处理导致 ABA 短期增加,随后 CKs 减少,PC 浓度增加。非金属胁迫植物中外源 ABA 脉冲诱导 CKs 和 PCs 的变化与 Cd 处理相似。Ni 和 Cd 胁迫导致明显不同的解毒反应。由于 CKs 和潜在金属螯合剂对 Cd 胁迫的反应可以被外源 ABA 脉冲模拟,因此认为 ABA 作为应激信号,通过降低 CK 浓度和增加 PC 产量来减少生长,从而降低金属毒性。
