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Intraspecific variability in plant antioxidant systems and its impact on drought tolerance
Jelénková, Iva ; Kočová, Marie (advisor) ; Zelenková, Sylva (referee)
Drought is one of the major factors limiting agricultural production. Reactive oxygen species (eg. superoxide radical, hydroxyl radical, hydrogen peroxide) generated during stress in plant cells activate antioxidant mechanisms, which scavenge those toxic substances. The positive correlation between activity of enzymatic (eg. catalase, superoxide dismutase, glutathione reductase, peroxidases) and nonenzymatic (eg. glutathione, ascorbic acid) antioxidants and stress tolerance was confirmed in various studies. Both interspecific and intraspecific variability was found in activities of antioxidant systems of plants. Higher activity was also observed in F1 generation in relation to positive heterosis, or in plants treated with supportive substances such as abscisic acid, brassinosteroids and nitrogen. The increase in the activity of antioxidants was also proved in relation to the ploidy level or to intensity of drought. It was observed the positive effect of previous drought exposition on tolerance to other abiotic stressors. The complex response of plants to stress factors depends on many other internal and external factors.
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Effect of polyploidization on species invasive success
Líblová, Zuzana ; Münzbergová, Zuzana (advisor) ; Rooks, Frederick (referee)
Polyploid variants of many species of plants are strikingly frequently found among alien plants on all continents. They also very often have a much larger distribution range of its occurrence, compared to diploid plants in the place of their origin. In many cases, the polyploid cytotype also has increased tolerance to various stress factors or a physiological and morphological characteristics that allow them to survive the conditions in which the diploid plants would have little chance to survive. All this suggests that polyploidy is likely to bring plants an evolutionary advantage over their diploid ancestors, and polyploids therefore can successfully colonize new territories. This thesis summarizes the findings about the possible consequences of polyploidy at different levels in relation to their effects on the properties supporting plant invasive ability. It presents also known hypotheses dealing with possibilities of why plants become invasive after introduction. This is followed by sections devoted to flow cytometry, an important modern method for determining genome size and ploidy level. In conclusion it briefly describes the model species bird vetch (Vicia cracca) and the results of measurements of the degree of ploidy of seeds of this plant from Alaska and Japan.
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Flow cytometry and its use for study of insects
Stuchlíková, Magdalena ; Janšta, Petr (advisor) ; Sadílek, David (referee)
Flow cytometry is a modern technique in research, playing a significant role in biomedicine and botanics. Despite its benefits (speed, simplicity, low costs), flow cytometry is currently not used in the study of insects on a large scale. This thesis gives an overview as to how flow cytometry is used in research on insects and summarises the results of such study. This pertains to genome size and its connections to other phenomena. Other focal points of research, such as ploidy and base pair ratios, are addressed to a lesser extent. Key words: flow cytometry, use in study of insects, genome size, ploidy, invertebrates
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Analyses of Monocercomonoides genome sizes, ploidies and karyotypes
Kornalíková, Martina ; Hampl, Vladimír (advisor) ; Krylov, Vladimír (referee)
Oxymonads are a group of flagellate protists living in low oxygen environments - mainly the guts of insects and vertebrates. In this study, we focus on the analysis of ploidy and karyotype of various species of oxymonads using Fluorescence In Situ Hybridization (FISH) with probes against single copy genes and telomeric repeats as well as estimating the DNA content in the nuclei of these oxymonads using flow cytometry. Using specific FISH probes against SufDSU gene, which is present in a single copy in the haploid genome, we showed that all studied strains are probably haploid. From the genome of Monocercomonoides exilis strain PA203 we know that oxymonads have the ancestral type of telomeric repeat (TTAGGG). Using a probe against these repeats we tried to label chromosome ends and estimate the number of chromosomes for seven strains (five species) of Monocercomonoides. With a single exception, the average number of signals per nucleus was below 20 indicating number of chromosomes below 10. In the strains of M. mercovicensis, we observed much higher number of signals suggesting that the cells have much higher number of chromosomes. Finally, we established the DNA content for several strains using flow cytometry. We used as a standard M. exilis strain PA203 knowing that the haploid genome size is...
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Polyspermy produces viable mosaics in sturgeon
IEGOROVA, Viktoriia Barativna
Chapter 1 (General Introduction), Chapter 2 (Polyspermy produces viable haploid/diploid mosaics in sturgeon), Chapter 3 (First evidence of viable progeny from three interspecific parents in sturgeon), Chapter 4 (General discussion, English Summary, Czech Summary, Acknowledgements, List of Publications, Training and Supervision Plan during Study, Curriculum Vitae). The thesis is written in English, contains 71 pages. The results were published in two scientific journals. The actuality of work: The majority of sturgeons are critically endangered and at the same time they are producers of the most expensive food product - black caviar. Presently, sturgeon restoring and conservation are depended on artificial reproduction in hatcheries. However, the way of fertilization is not clear: monospermy, physiological or pathological polyspermy? Moreover, during last decades it was believed that under artificial fertilizations, can appear atypically divided embryos like 3 or 6 cells, which die prior hatching stage or sometimes develop into malformed shape fry with soon death due to deformations. Atypically divided embryos, their origin and the reason of appearance was not studied well. Investigation of fertilization aspects in economically significant and endangered fishes is extremely important. Requires attention and studies a hybridization abilities in sturgeons, as hybridization plays an important role in sturgeon evolution. The purposes of the study were: to find a way of fertilization in sturgeons (monospermy/polyspermy); to understand the reasons of atypical division of cells during artificial breeding; to investigate if atypically divided embryos are able to develop beyond the feeding stage, to analyze their ploidy; to classify the types of atypically divided embryos and their frequency; to investigate sturgeon hybridization plasticity, to produce first interspecific hybrid from three parents. Novelty and scientific originality: In this research two ways of fertilization were found in sturgeons: physiological polyspermy (fertilization typical for caudate amphibians) and karyogamy with an additional plasmogamy, which results in production of viable multiple-sperm mosaics with atypical division on the 2-4 cell stage and mosaic ploidy). Conducted research is important for avoiding of negative effect on sturgeon propagation programs, due to uncontrolled fertilization and releasing of multiple-sperm mosaics into the wild, which can cause appearance of sturgeons with irregular ploidy and induce a detrimental genetic effects on sturgeon populations. However, multiple-sperm mosaics, which were discovered in this study and their easy way of production can be used as a beneficial tool for a rapid manufacture of isogenic strains in sturgeons. In this study was shown that applying of just one part of body (blood, tail, etc.) for ploidy determination is not giving a full view of a real ploidy of the studied individual. A huge ability for hybridization and plasticity were described in sturgeon. It was possible to generate a first viable hybrids from three interspecific parents.
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Mode of reproduction and reproductive assurance of diploid and polyploid hawkweeds (Hieracium s. str.)
Zdvořák, Pavel ; Mráz, Patrik (advisor) ; Krahulcová, Anna (referee)
The mode of reproduction can greatly influence the demography and the evolutionary success of the taxon. In the case of autonomous asexual formation seeds are apomictic taxa fully independent of pollinators and compatible partners. For sexual taxa with strict autoincompatibility it is the opposite, i.e. sexual taxa need pollinators and compatible partners for birth of offspring. Therefore, in marginal population and for more extreme situation with lower pollinating activity will have apomictic taxa a higher level of reproductive assurance than sexual taxa vascular plants. This hypothesis was tested in natural populations of apomictic and sexual taxa. In the diploma thesis we therefore investigate the method mode of reproduction and reproductive assurance of 52 taxa of the genus Hieracium s. str. (family Asteraceae) in Europe. Of these, 12 were diploid sexually diploid taxa and 42 polyploid apomictic reproductive taxa. From these taxa we harvested seeds from fully developed capitulum and we determined the potential (total number of seeds in the capitulum) and the realized (the percentage of well-developed seeds at the capitulum). The ploidy of the offspring (the embryos and the seedling) and method origins of seeds we examined using flow cytometry. The results show that the plants of diploid species...
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Flow cytometry and its use for study of insects
Stuchlíková, Magdalena ; Janšta, Petr (advisor) ; Sadílek, David (referee)
Flow cytometry is a modern technique in research, playing a significant role in biomedicine and botanics. Despite its benefits (speed, simplicity, low costs), flow cytometry is currently not used in the study of insects on a large scale. This thesis gives an overview as to how flow cytometry is used in research on insects and summarises the results of such study. This pertains to genome size and its connections to other phenomena. Other focal points of research, such as ploidy and base pair ratios, are addressed to a lesser extent. Key words: flow cytometry, use in study of insects, genome size, ploidy, invertebrates
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Effect of polyploidization on species invasive success
Líblová, Zuzana ; Münzbergová, Zuzana (advisor) ; Rooks, Frederick (referee)
Polyploid variants of many species of plants are strikingly frequently found among alien plants on all continents. They also very often have a much larger distribution range of its occurrence, compared to diploid plants in the place of their origin. In many cases, the polyploid cytotype also has increased tolerance to various stress factors or a physiological and morphological characteristics that allow them to survive the conditions in which the diploid plants would have little chance to survive. All this suggests that polyploidy is likely to bring plants an evolutionary advantage over their diploid ancestors, and polyploids therefore can successfully colonize new territories. This thesis summarizes the findings about the possible consequences of polyploidy at different levels in relation to their effects on the properties supporting plant invasive ability. It presents also known hypotheses dealing with possibilities of why plants become invasive after introduction. This is followed by sections devoted to flow cytometry, an important modern method for determining genome size and ploidy level. In conclusion it briefly describes the model species bird vetch (Vicia cracca) and the results of measurements of the degree of ploidy of seeds of this plant from Alaska and Japan.
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