Plants and Environmental Sciences, the Hebrew University of Jerusalem, Edmond J. Safra Campus, Givat Ram, Jerusalem, 9190401, Israel.
The Yigal Allon Kinneret Limnological Laboratory, Israel Oceanographic and Limnological Research, Migdal, Israel.
Environ Microbiol Rep. 2019 Oct;11(5):621-629. doi: 10.1111/1758-2229.12789. Epub 2019 Aug 16.
Various approaches have been proposed to control/eliminate toxic Microcystis sp. blooms including H O treatments. Earlier studies showed that pre-exposure of various algae to oxidative stress induced massive cell death when cultures were exposed to an additional H O treatment. We examined the vulnerability of exponential and stationary-phase Microcystis sp. strain MGK cultures to single and double H O applications. Stationary cultures show a much higher ability to decompose H O than younger cultures. Nevertheless, they are more sensitive to an additional H O dose given 1-6 h after the first one. Transcript analyses following H O application showed a fast rise in glutathione peroxidase abundance (227-fold within an hour) followed by a steep decline thereafter. Other genes potentially engaged in oxidative stress were far less affected. Metabolic-related genes were downregulated after H O treatments. Among those examined, the transcript level of prk (encoding phosphoribulose kinase) was the slowest to recover in agreement with the decline in photosynthetic rate revealed by fluorescence measurements. Our findings shed light on the response of Microcystis MGK to oxidative stress suggesting that two consecutive H O applications of low concentrations are far more effective in controlling Microcystis sp. population than a single dose of a higher concentration.
已经提出了各种方法来控制/消除有毒微囊藻水华,包括 H ₂ O₂ 处理。早期的研究表明,各种藻类在暴露于额外的 H ₂ O₂ 处理之前受到氧化应激的预暴露会导致大量细胞死亡。我们检查了指数期和静止期微囊藻 MGK 培养物对单次和双次 H ₂ O₂ 应用的脆弱性。静止培养物比年轻的培养物显示出更高的分解 H ₂ O₂ 的能力。然而,它们对第一次处理后 1-6 小时给予的额外 H ₂ O₂ 剂量更敏感。H ₂ O₂ 处理后的转录分析显示谷胱甘肽过氧化物酶丰度迅速上升(在一小时内增加 227 倍),此后急剧下降。其他可能参与氧化应激的基因受影响较小。H ₂ O₂ 处理后代谢相关基因下调。在检查的基因中,编码磷酸核糖激酶(prk)的转录水平恢复最慢,与荧光测量显示的光合速率下降一致。我们的研究结果阐明了微囊藻 MGK 对氧化应激的反应,表明低浓度的连续两次 H ₂ O₂ 应用比高浓度的单次剂量更有效地控制微囊藻种群。
