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光系统II中吸收光更好的能量分配以及更少的光氧化损伤有助于拟南芥幼叶适应水分亏缺。

A better energy allocation of absorbed light in photosystem II and less photooxidative damage contribute to acclimation of Arabidopsis thaliana young leaves to water deficit.

作者信息

Sperdouli Ilektra, Moustakas Michael

机构信息

Department of Botany, School of Biology, Aristotle University of Thessaloniki, University Campus, 54124 Thessaloniki, Greece.

Department of Botany, School of Biology, Aristotle University of Thessaloniki, University Campus, 54124 Thessaloniki, Greece.

出版信息

J Plant Physiol. 2014 May 1;171(8):587-93. doi: 10.1016/j.jplph.2013.11.014. Epub 2014 Mar 20.

DOI:10.1016/j.jplph.2013.11.014
PMID:24709149
Abstract

Water deficit stress promotes excitation pressure and photooxidative damage due to an imbalance between light capture and energy use. Young leaves (YL) of Arabidopsis thaliana plants acclimate better to the onset of water deficit (OnsWD) than do mature leaves (ML). To obtain a better understanding of this differential response, we evaluated whether YL and ML of A. thaliana exposed to the OnsWD, mild water deficit (MiWD) and moderate water deficit (MoWD), show differences in their photosynthetic performance, and whether photosynthetic acclimation correlates with leaf developmental stage. Water deficit (WD) resulted in greater photooxidative damage in ML compared to YL, but the latter could not be protected under the OnsWD or MiWD, but only under MoWD. YL of A. thaliana with signs of photosynthetic acclimation under MoWD retained higher maximum quantum yield (Fv/Fm) and decreased reactive oxygen species (ROS) formation. YL under MoWD, show a reduced excitation pressure and a better balance between light capture and photochemical energy use, which contributed to their photoprotection, but only under low light intensity (LL, 130μmolphotonsm(-2)s(-1)) and not under high light (HL, 1200μmolphotonsm(-2)s(-1)). In conclusion, leaf developmental stage was correlated with photo-oxidative damage and a differential allocation of absorbed light energy in photosystem II (PSII) of Arabidopsis leaves under WD.

摘要

水分亏缺胁迫由于光捕获与能量利用之间的失衡,会促进激发压力和光氧化损伤。拟南芥植株的幼叶(YL)比成熟叶(ML)能更好地适应水分亏缺的开始(OnsWD)。为了更好地理解这种差异反应,我们评估了暴露于OnsWD、轻度水分亏缺(MiWD)和中度水分亏缺(MoWD)下的拟南芥YL和ML在光合性能上是否存在差异,以及光合适应是否与叶片发育阶段相关。与YL相比,水分亏缺(WD)导致ML中光氧化损伤更严重,但YL在OnsWD或MiWD下无法得到保护,仅在MoWD下能得到保护。在MoWD下有光合适应迹象的拟南芥YL保持了更高的最大量子产率(Fv/Fm),并减少了活性氧(ROS)的形成。MoWD下的YL表现出降低的激发压力以及光捕获与光化学能量利用之间更好的平衡,这有助于它们的光保护,但仅在低光强度(LL,130μmol光子m⁻²s⁻¹)下,而在高光(HL,1200μmol光子m⁻²s⁻¹)下则不然。总之,叶片发育阶段与WD下拟南芥叶片光氧化损伤以及光合系统II(PSII)中吸收光能的差异分配相关。

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