Cell Localization of DPI-Dependent Production of Superoxide in Reproductive Tissues of the Olive Tree (Olea europaea L.)

Oxygen (Basel, Switzerland) Pub Date : 2022-04-19 DOI:10.3390/oxygen2020007

M. J. Jiménez-Quesada, A. Castro, E. Lima-Cabello, J. Alché

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Abstract

Reactive Oxygen Species (ROS) are compounds derived from oxygen with important implications in biological processes in plants, some of them related to reproduction. Among ROS, superoxide is the primary oxidant, since an array of other ROS are eventually derived from this anion. Therefore, analysis of the molecular systems able to generate this molecule and the cellular compartmentalization of these events is of paramount importance. We have used the fluorochrome DCFH2-DA and the chromogenic substrate NBT in association with DPI (a specific inhibitor of Rboh enzymes generating superoxide in plants) in combination with confocal microscopy and stereomicroscopy, respectively to identify cell localization of ROS in general, and superoxide accumulation in olive reproductive tissues. A significant production of both ROS and superoxide has been described, showing a fairly precise spatial and temporal location throughout olive flower development. The reduction of the NBT signal after the addition of DPI suggests that the generation of superoxide is largely due to Rboh or other flavin oxidase activity. At the subcellular level, accumulation of O2●− has been located in the plasma membrane of mature pollen and germinated pollen, as well as in the rough endoplasmic reticulum and in mitochondria.

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橄榄树（Olea europaea L.）生殖组织中DPI依赖性超氧化物产生的细胞定位

活性氧(Reactive Oxygen Species, ROS)是由氧衍生的化合物，在植物的生物过程中具有重要意义，其中一些与生殖有关。在活性氧中，超氧化物是主要的氧化剂，因为一系列的其他活性氧最终来源于这个阴离子。因此，分析能够产生这种分子的分子系统和这些事件的细胞区隔是至关重要的。我们利用荧光染料DCFH2-DA和与DPI(植物中产生超氧化物的Rboh酶的特异性抑制剂)相关的显色底物NBT，结合共聚焦显微镜和体视显微镜，分别鉴定了一般ROS的细胞定位和橄榄生殖组织中超氧化物的积累。活性氧和超氧化物的大量产生已经被描述，显示了在橄榄花发育过程中相当精确的空间和时间位置。添加DPI后NBT信号的降低表明，超氧化物的产生主要是由于Rboh或其他黄素氧化酶的活性。在亚细胞水平上，O2●−的积累位于成熟花粉和萌发花粉的质膜、粗内质网和线粒体中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Oxygen (Basel, Switzerland)

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