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Impact of elevated carbon dioxide concentration and nitrogen fertilization on protein content of glutenin fraction in winter wheat
Veselá, Markéta ; Vespalcová, Milena (referee) ; Hrstka, Miroslav (advisor)
This bachelor thesis studies the impact of elevated carbon dioxide concentration in the atmosphere and nitrogen nutrition on protein kontent in winter wheat (Triticum aestivum) var. Bohemia. Glutenin proteins were separated by SDS-PAGE method and protein quantification was performed by computer densitometry. It was proved that the nitrogen fertilization has a great influence on the amount of glutenin proteins, which increased in all samples. Effect of elevated CO2 concentrationis not nearly as significant, however certain differences can be seen. Samples of wheat grown under conditions of reduced UV radiation, and samples of wheat grown under natural conditions did not show great differences in the content of glutenins.
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Impact of elevated carbon dioxide concentration on protein content of gliadin fraction in winter wheat
Šimíčková, Adéla ; Vítová, Eva (referee) ; Hrstka, Miroslav (advisor)
The aim of this bachelor thesis was to study the impact of elevated CO2 concentration, nitrogen fertilization and UV radiation on the content of gliadin fractions in winter wheat. Winter wheat (Triticum aestivum) var. Bohemia was cultivated in conditions with ambient and elevated (700 mol mol-1) CO2 concentrations. Nitrogen nutrition (200 kg N ha-1) was added to half of the samples, while the another half of samples remained unfertilized. Plants were grown in greenhouses both with shielded UV-B radiation and with normal UV radiation. Environment with natural rainfall was the same for all of these variants. Gliadins were extracted by 2-chlorethanol, separated by A-PAGE method and subsequently quantified by computer densitometry. Significant increase of gliadin proteins was noticed in conditions of nitrogen fertilization in natural UV radiation, both in elevated and ambient CO2 concentrations, whereas in an eliminated UV-B radiation significant effect of nitrogen was not observed. Therefore UV radiation influenced in combination with nitrogenous nutrition as stimulative factor. However, statistically significant impact of evelated CO2 concentration on gliadin content was not proved.
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Impact of elevated carbon dioxide concentration and nitrogen nutrition on protein content of glutenin and gliadin fraction in winter wheat
Chadimová, Klára ; Vítová, Eva (referee) ; Hrstka, Miroslav (advisor)
The present study investigates effects of elevated atmospheric carbon dioxide concentration, different nitrogen fertilization levels, drought and UV radiation on protein content of wheat gluten fractions glutenins and gliadins. Winter wheat cultivar Bohemia was grown under ambient CO2 concentration (AC; 400 mol CO2.mol-1) and elevated CO2 concentration (EC; 700 mol CO2.mol-1). Half of the samples was fertilized with 200 kg N.ha-1 (N+) and the other part stayed unfertilized (N–). Other environmental factors were UV radiation exclusion (UV–, UV+) and drought (DRY, WET). Gliadins were separated by A-PAGE, glutenins by SDS-PAGE. Proteins were quantified by computer densitometry. Nitrogen fertilization caused an significat increase of gliadins and glutenins. While some gliadins subfractions were significantly lowered by drought, HMW glutenin subunits showed significant increase. UV radiation exclusion resulted in significant decrease of some gliadin subfractions and glutenin subunits. CO2 enrichment caused significant increase of glutenin subfractions HMW 1 and 2, while gliadin subfractions -5 1 and 1 were significantly decreased by elevated CO2 concentration.
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Impact of elevated carbon dioxide concentration on protein content of gliadin fraction in winter wheat
Hamříková, Dominika ; Omelková, Jiřina (referee) ; Hrstka, Miroslav (advisor)
In this diploma thesis protein content of gliadin fractions in winter wheat (Triticum aestivum) var. Bohemia was studied. The crop was cultivated in conditions with ambient (AC) and elevated (EC; 700 mol•mol-1) carbon dioxide concentration. Moreover, half of the samples was fertilized with nitrogen in an amount of 200 kg•ha-1. Other observed environmental factors were drought and UV radiation. The gliadin proteins were separated by A PAGE method and quantified by computer densitometry. Generally the protein content within , and gliadin fractions varied, while the protein content of gliadins remained unchanged or almost unchanged. Clearly the nitrogen fertilization had the most pronounced impact on the gliadin protein content and it significantly increased the protein content in wheat grain. Most subfractions reacted in conditions of AC, drought and without UV radiation and in conditions of EC with natural rainfall and UV radiation. The interaction of nitrogen fertilization with UV radiation (AC, drought) was significant and so was the interaction of nitrogen fertilization excluding UV radiation (EC, drought). The interaction of nitrogen fertilization and natural rainfall significantly increased the protein content in conditions of AC without UV radiation and in conditions of EC with UV radiation. EC alone and the interaction of EC with other factors had only a small impact. The impact was the most pronounced in interaction with nitrogen fertilization. EC with nitrogen fertilization (drought without UV radiation) increased the gliadin protein content and EC excluding nitrogen fertilization (drought and natural rainfall with UV radiation) decreased the protein content.
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