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Changes in the content of gliadin protein fractions in two genotypes of winter wheat with different lengths of vegetation time depending on nitrogen fertilization with drought interaction.
Francová, Marie ; Zemanová, Jana (referee) ; Hrstka, Miroslav (advisor)
In this diploma thesis the influence of the nitrogen fertilization and drought on the change in the content of gliadin protein fractions in two genotypes of winter wheat Avenue and Tobac was studied. These two genotypes differ in vegetation time length. Half of the plants were fertilized using nitrogen fertilizer at 200 kg N/ha. One third of the plants were cultured under the conditions of early drought (in bloom season), other one third was grown under the conditions of of late drought (grain filling season), and last third was grown under the conditions of natural irrigation. Individual gliadin fractions were separated by using A-PAGE method and their content quantified by computer densitometry. Our results have shown increase in gliadin fractions content after nitrogen fertilization. Early drought itself caused significant increase in the levels of -gliadin fractions in Tobac genotype. Early and late drought in combination with nitrogen fertilization increased levels of gliadin fractions in Tobac genotype. Early drought in combination with nitrogen fertilization had no effect on Avenue genotype, except of -gliadin fractions which decreased significantly. Late drought in combination with nitrogen fertilization caused significant increase in gliadin content in Avenue genotype. The highest increase in gliadin content was observed in fraction -5 of the Tobac variety during interaction nitrogen fertilization with late drought.
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Changes in gliadin content in four varieties of wheat at different temperatures and drought stress.
Cigánková, Michaela ; Kovalčík, Adriána (referee) ; Hrstka, Miroslav (advisor)
This diploma thesis deals with an influence of increasing temperature and water shortage on the content of gliadin proteins in four varieties of wheat: Bohemia, Pannonia, Tobak and RGT Reform. Samples were cultivated at 26, 29, 32, 35, 39 and 41 ° C. Due to the lack of culture samples at 41 ° C, these samples were not used for our experiment. Cultivation took place during flowering with sufficient moisture (with soil moisture higher than 70%) or under drought stress (with humidity below 30%). The A-PAGE method was used to separate gliadin fractions. Quantification was performed by computer densitometry. Significant influence of water availability on gluten protein content was found. The lack of moisture in the stress environment caused a relative increase in gliadin fractions compared to conventional conditions, especially in the Pannonia and RGT Reform varieties. The Pannonia and RGT Reform varieties responded most to the temperature, while Bohemia. The Tobak variety responded to the temperature in interaction with water scarcity. Due to the rising temperature, virtually all gliadin fractions in the Pannonia and RGT Reform varieties increased. The effect of drought often manifests itself in interaction with the influence of temperature. The most dramatic effect was the drought in interaction with temperature in the Tobak variety, where the gliadin content increased. In general, the temperature and drought were most affected by -gliadin fractions of all four varieties of wheat.
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Impact of temperature and drought on gliadins content in two varieties of wheat
Seidlová, Kateřina ; Brázda, Václav (referee) ; Hrstka, Miroslav (advisor)
This bachelor’s thesis focuses on the effect of high temperature and drought on protein content of gliadin fraction on two varieties of wheat. Chosen varieties were Hyfi and Julie, cultivated at 26, 29, 32, 35 and 38 °C during flowering in watering controlled conditions. The condition for ‘wet’ samples was at least 70 % soil moisture and for ‘dry’ samples less than 30 % soil moisture. After harvesting, the seeds were milled into flour from which the gliadins were extracted with 2-chlorethanol. A-PAGE method was used for gliadin separation, quantification was carried out through computer densitometry. A significant genotype effect was discovered. Whilst temperature ranging from 26-38 °C with simultaneous drought stress had no significant effect on gliadin content of Hyfi variation, gliadin content of Julie variation shown obvious maximum at 32 °C. Therefore, Hyfi variation shown better resistance to heat stress than Julie variation. Both variations had higher gliadin content under drought stress than under good watering conditions.
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Impact of nitrogen fertilization and drought on gliadins content in winter wheat
Odstrčilová, Eva ; Obruča, Stanislav (referee) ; Hrstka, Miroslav (advisor)
In this diploma thesis the impacts of both nitrogen fertilization and drought on the content of proteins of the gliadin fraction in case of a winter wheat variety Tiguan were observed. Selected samples were cultivated at two locations in a total duration of two years. Two different conditions were selected: one without the nitrogen fertilization (0 kg N/ ha) and the other with the nitrogen fertilization in 140 kg N/ ha concentration. Second observed factor was the drought which was ensured by roofs above the crops and their cultivation in common climatic environment. Gliadin fraction was separated by the A-PAGE method and the protein quantification carried out by a computer densitometry. Such nitrogen fertilization caused a significant increase of gliadins, especially -1,2 and -5 fractions. Stress induced by the drought caused an increase of gliadin content compared to the control sample, particularly in case of - and - fractions. The most important factor influencing the gliadin content in grains was therefore the nitrogen fertilization in a dry environment. The observed increase of gliadin content was lower in case of the sample which was fertilized in a humid environment than in case of the sample which was fertilized in the dry one.
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Impact of temperature and drought on gliadins and glutenins contents in four varieties of wheat
Tomasz, Teresa ; Vítová, Eva (referee) ; Hrstka, Miroslav (advisor)
This diploma thesis deals with an influence of high temperature and water shortage on the protein content of gliadin and glutenin fractions in four varieties of winter wheat: Bohemia, Tobak, Pannonia and var. Syria with designation S46 (IG142780). The crop was grown at 26, 29, 32, 35, 38 and 41 °C during anthesis under control irrigation treatment (with soil moisture higher than 70 %) or under drought stress (with soil moisture lower than 30 %). To separate gliadins, the A-PAGE method was used, and glutenins were separated by SDS-PAGE method. Proteins were quantified by computer densitometry. Significant influence of genotype on the gluten proteins was found. Variety Pannonia has high content of -, 5-gliadins, LMW and HMW glutenins, but low content of other gliadin fractions. It was the opposite in the other varieties. Due to temperature, as well as drought, there was an increase in the content of all gluten fractions, especially of HMW glutenins, 1,2-gliadins and total gliadins. The largest increase in the gluten fractions due to drought was observed in Syria variety. In other varieties simultaneous exposure to drought and heat caused decrease in gliadin content, but increase in glutenin content. Drought at high temperatures reduced gliadin-to-glutenin ratio, mostly in Bohemia variety. This ratio has increased due to the temperature, especially in Tobak variety. For Syria variety, no effect of stress conditions was found on gliadin-to-glutenin ratio.
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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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