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Physiological, structural, and biochemical leaf traits of selected Poaceae species involved in oxidative stress protection and acclimation to different light conditions
Hunt, Lena Macrie ; Albrechtová, Jana (advisor) ; Lux, Alexander (referee) ; Šantrůček, Jiří (referee)
This thesis examines physiological, structural, and biochemical leaf traits in grasses (Poaceae family) and how they contribute to oxidative stress protection. Light is a major factor contributing both to oxidative stress in plants and the induction of protective mechanisms at the leaf level. The agriculturally important species barley (Hordeum vulgare) was used to investigate responses to varying irradiance and atmospheric CO2 levels. Barley was further used as a model organism to study the influence of different spectral qualities on oxidative protective mechanisms, particularly phenolic compound induction. This thesis also examines the protective leaf functional traits of wild grass species (Nardus stricta, Calamagrostis villosa, Molinia caerulea, and Deschampsia cespitosa) in a high-irradiance arctic-alpine tundra grassland. Phenolic compounds are important protective secondary metabolites in plants that protect against oxidative stress from high irradiance. This thesis evaluates phenolic compounds and their contributions to plant stress tolerance and introduces a novel method of quantifying the histochemical detection of phenolics in leaf cross-sections. Key results indicate that light quantity and quality play major influential roles in the accumulation of phenolic compounds. High irradiance...
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Molecular and biochemical characteristics of genetically modified barley plants
KOCKOVÁ, Lucie
Modern agriculture often employs broad-spectrum herbicides combined with herbicide-resistant crops. Usually, this is achieved by altering the crop genom (genetic modification) by inserting of a specific gene coding for resistance to specific herbicide or group of herbicides. Apllying such herbicide thus results in minor crop damage. The resistence of crops against broad-spectrum herbicides depends on the genes, which were inserted into the genom. The gene bar is often used as a resistence -providing element. It mediates resistance against a broad spectrum of herbicides, such as glufosinate and Bialahops. For the selection of transformants and preliminary assessment of the target transgen expression level a suitable marker gene is simultaneously inserted. For this purpose, gene for bacterial ??glucuronidase (GUS) is often used. It is considered to be one of the most frequently used reporter systems for the assessment of transgen expression and also allows to analyze the expression on the tissue, cell and whole cell organelles levels. In this diploma thesis the PCR method and histochemical detection of the enzyme glucuronidase presence were used to detect and evaluate transgenic plants of cv. Golden Promise spring barley, modified by genes bar and gus. The presence of gus gene was determined in different parts of plants.
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