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Autophagy in plant abiotic stress
Kosťová, Natálie ; Hála, Michal (advisor) ; Martinec, Jan (referee)
Autophagy is a cellular mechanism when cell gets rid of its damaged or unwanted components. These are wrapped into a double membrane and creates so-called autophagosome, which is transported to the vacuole, where its contents are degraded or recycled. Autophagy runs essentially through whole life of the plant, but if it is necessary, for example in response to stressful conditions, it is significantly intensified. It is relatively complexly regulated mechanism, which, especially in plants, still has not been completely described. Autophagy plays an important role under the influence of stress conditions. Especially, the effects of abiotic stress play an important role in plant life. Plants are immobile organisms so they must therefore develop mechanisms to enable them to survive in adverse conditions. In response to different types of stress, we can observe different roles in the involvement of autophagy, whether it is disposal of poorly folded proteins, remobilization of nutrients or antioxidant mechanism. Autophagy is also especially important for the process of stress memory and regulation.
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Oxidative stress level as a marker of stress memory in selected genotypes of potato Solanum tuberosum ssp. tuberosum and ssp. andigena
Lotová, Gabriela ; Mašková, Petra (advisor) ; Lhotáková, Zuzana (referee)
Plants are exposed to the stress of the environment throughout their entire live. They therefore had to develop sophisticated mechanisms to avoid or tolerate stress. In some plants, repeated exposure to stress increases tolerance, which is known as stress memory. The aim of this study is to assess stress memory in terms of oxidative stress level. Content of malondialdehyde (MDA), reactive oxygen species (ROS) and the electrolyte leakage were chosen as markers of oxidative stress. Fresh weight, plant height and water content were also evaluated. The level of oxidative stress was assessed in several genotypes of Solanum tuberosum subspecies, Andigena and Tuberosum. In vitro culture did not work well for the evaluation of stress memory, ex vitro partially did. The content of MDA in 66B was significantly lower than in cv. Lada (Tuberosum) in root (in vitro) and shoot (ex vitro) in control groups as well as during water shortage. Treatment of acclimation-inducing cold before the stress-inducing cold had a variable effect on growth and electrolyte leakage according to the culture conditions. In vitro, the effect on electrolyte leakage in roots of cv. Lada was positive, in leaves of 66B (Andigena) it was negative. In ex vitro, a positive effect was found on electrolyte leakage in 66B leaves, but at the...
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