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Origin, inheritance and ecological sygnificance of apomixis in the genus Hieracium s.str.: the role of genetic and epigenetic mechanims
Pinc, Jan ; Mráz, Patrik (advisor) ; Hojsgaard, Diego (referee) ; Mandák, Bohumil (referee)
Apomixis (asexual reproduction by seeds) has the considerable potential in agriculture and crop breeding due to its ability to produce genetically identical progenies in a form of persistent propagules, i.e. seeds. However, the processes laying behind the origin of apomixis and connected molecular mechanisms are still unknown. Despite the fact, that apomicts are considered to be an evolutionary dead-ends, they are often more widely distributed than their sexual relatives (this phenomenon is commonly referred to as geographical parthenogenesis (GP). Although this phenomenon is studied for decades, its causes are still not fully understood. Importantly, several recent studies pointed out that apomicts with limited genetic variability can at some extent react to changing environment through changes in gene transcription by epigenetic modifications. It is generally assumed, that hybridisation and polyploidization played a crucial role in the emergence of apomixis. For this reason, presented studies test the putative origin of selected polyploid apomicts and if the interspecific hybridisation between diploid sexuals triggers polyploidization using predominantly polyploid and apomictic genus Hieracium s. str. Surprisingly, the presented study demonstrates the hybrid origin of almost all investigated...
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Importance of epigenetic variability in evolution of clonal plants
Mareš, Štěpán ; Pinc, Jan (advisor) ; Latzel, Vít (referee)
Because of their low genetic variability and limited ability to respond to the changing environment, clonal plants are often considered an evolutionary dead end. On the other hand, numerous recent studies showed that clonal plants can react to the changing environment through epigenetic mechanisms, especially through DNA methylation. Moreover, epigenetic information in clonal plants can be transferred to future generations (so-called transgenerational memory). As a result, epigenetics can ensure better fitness of the next clonal generation. The aim of this work is to summarize the knowledge about the role of epigenetic variability in the life of clonal plants performing limited genetic variability. Key words: epigenetics, DNA methylation, epigenetics variation, clonal plants, transgeneration memory
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