Introgression in Betula species of different ploidy levels and the analysis of the Betula nana genome

Zohren, Jasmin

January 2017

Two of the most rapid drivers of evolution are hybridisation and polyploidisation. Hybridisation allows the rapid introduction of novel genetic material, potentially much faster than mutations, but this process is impeded by reproductive barriers between species. Differencesinploidylevelcanformsuchabarrier. Hybridisationaswellaspolyploidyareknown to occur frequently in the plant kingdom, including the genus Betula, which is investigated in this thesis. Three species of the Betula genus that exist in the United Kingdom are studied here: B. nana (dwarf birch), B. pendula (silver birch), and B. pubescens (downy birch). They differ in ploidy: B. nana and B. pendula are diploid and B. pubescens is a tetraploid. HybridisationandgeneflowbetweenthesethreespecieswasanalysedbyusingaRAD-seq dataset derived from 196 wild individuals. It was found that introgression acts unidirectionally from the diploid into the tetraploid species and that there is a cline of introgression between the north and south of the UK. This result suggests a range shift of the species from different distributions in the past. Gene flow from B. nana to B. pubescens could be a neutral or even maladaptive consequence of their past species distributions. Alternatively, it could be an adaptive process: alleles from B. nana could be helping B. pubescens to adapt to harsher, more northerly populations. To gain a preliminary understanding of the possible effects of introgression, the loci in close linkage to RAD tags introgressed from B. nana into B. pubescens were investigated and their putative function inferred by comparing their homologs in related species. To enhance the analyses, a draft whole genome sequence assembly of a B. nana individual was improved with long read data generated by PacBio sequencing, as well as the addition of RNA-seq data. This produced a more contiguous and complete reference sequence, enabling a closer look at more genes in linkage to the RAD tags.

Evoluční a ekologické důsledky polyploidizace komplexu Arabidopsis arenosa v západních Karpatech / Evolutionary and ecological consequences of polyploidization in Arabidopsis arenosa complex in Western Carpathians

Bayerová, Jana

January 2016

Polyploidization is a key mechanism of rapid speciation, with many phenotypic consequences which extent, however, is poorly understood. A deeper understanding of the evolutionary implications of genome duplication is limited due to lack of knowledge of the links between changes in genome, the phenotype of the individual and environmental constraints. Natural lineages closely related to model species represent the ideal systems for addressing such questions. The thesis is thus focuses on highly promising yet overlooked di-polyploid system within Arabidopsis genus. In the western Carpathians morphologically distinct populations of diploid and tetraploid plants of Arabidopsis arenosa grow along a marked altitudinal gradient. Using high-throughput DNA sequencing, measuring morphological characteristics and collecting ecological data of high alpine and foothill populations I try to reveal main trends of genetic and morphological variability of these populations. Additionaly, using morphometrics of natural and experimentally planted populations we want to test the hypothesis whether morphological divergence of alpine and foothill populations has a genetic basis or is driven by phenotypic plasticity. The presented thesis is an important multidisciplinary combination of genetic research on natural related of model...