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Evolution of the genus Arabidopsis in its centre of diversity
Šrámková, Gabriela
A prerequisite for addressing general questions concerning the evolution of intraspecific variability in space and time is the knowledge of the distribution of variability within the species' range. The development of molecular methods has been a major step forward, allowing various evolutionary questions to be addressed using natural populations of model species and their close relatives. Although wild relatives of Arabidopsis thaliana have long been in the focus of plant evolutionary biologists and molecular geneticists, the patterns of genetic diversity and phenotypic variation in their natural populations are often overlooked. The present work focuses on some of the most studied model species in the Brassicaceae family, Arabidopsis halleri and the complex of A. arenosa, whose members are widely used to study ecology, physiology and evolution as well as the molecular basis of phytoremediation and parallel adaptation. The study aimed to determine intraspecific variation at the ploidy level, to reveal phylogenetic relationships and the spatial distribution of genetic diversity across the range, and to propose a new taxonomic concept based on the detected intraspecific genotypic and phenotypic variation. In order to accomplish this goal, we used DNA flow cytometry, several molecular methods (AFLP,...
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Evolution of the genus Arabidopsis in its centre of diversity
Šrámková, Gabriela ; Marhold, Karol (advisor) ; Greimler, Josef (referee) ; Mártonfi, Pavol (referee)
A prerequisite for addressing general questions concerning the evolution of intraspecific variability in space and time is the knowledge of the distribution of variability within the species' range. The development of molecular methods has been a major step forward, allowing various evolutionary questions to be addressed using natural populations of model species and their close relatives. Although wild relatives of Arabidopsis thaliana have long been in the focus of plant evolutionary biologists and molecular geneticists, the patterns of genetic diversity and phenotypic variation in their natural populations are often overlooked. The present work focuses on some of the most studied model species in the Brassicaceae family, Arabidopsis halleri and the complex of A. arenosa, whose members are widely used to study ecology, physiology and evolution as well as the molecular basis of phytoremediation and parallel adaptation. The study aimed to determine intraspecific variation at the ploidy level, to reveal phylogenetic relationships and the spatial distribution of genetic diversity across the range, and to propose a new taxonomic concept based on the detected intraspecific genotypic and phenotypic variation. In order to accomplish this goal, we used DNA flow cytometry, several molecular methods (AFLP,...
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