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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Vyhodnocení příbuznosti organismů pomocí číslicového zpracování genomických dat / Evaluation of Organisms Relationship by Genomic Signal Processing

Škutková, Helena January 2016 (has links)
This dissertation deals with alternative techniques for analysis of genetic information of organisms. The theoretical part presents two different approaches for evaluation of relationship between organisms based on mutual similarity of genetic information contained in their DNA sequences. The first approach is currently standardized phylogenetics analysis of character based records of DNA sequences. Although this approach is computationally expensive due to the need of multiple sequence alignment, it allows evaluation of global and local similarity of DNA sequences. The second approach is represented by techniques for classification of DNA sequences in a form of numerical vectors representing characteristic features of their genetic information. These methods known as „alignment free“ allow fast evaluation of global similarity but cannot evaluate local changes. The new method presented in this dissertation combines the advantages of both approaches. It utilizes numerical representation similar to 1D digital signal, i.e. representation that contains specific trend along x-axis. The experimental part of dissertation deals with design of a set of appropriate tools for genomic signal processing to allow evaluation mutual similarity of taxonomically specific trends. On the basis of the mutual similarity of genomic signals, the classification in the form of dendrogram is applied. It corresponds to phylogenetic trees used in standard phylogenetics.
22

Inferring the phylogeny of problematic metazoan taxa using mitogenomic and phylogenomic data

Golombek, Anja 23 May 2019 (has links)
The evolutionary origin and the phylogeny of higher metazoan taxa is still under debate although considerable progress has been made in the past 20 years. Metazoa represents a monophyletic group of highly diverse animals including Bilateria, Cnidaria, Porifera, Ctenophores, and Placozoa. Bilateria comprises the majority of metazoans and consists of three major clades: Deuterostomia, Spiralia (= Lophotrochozoa sensu lato), and Ecdysozoa, whereas the sister group taxa Spiralia and Ecdyzozoa form the monophyletic clade Protostomia. Molecular data have profoundly changed the view of the bilaterian tree of life. One of the main questions concerning bilaterian phylogeny is the on-going debate about the evolution of complexity in Bilateria. It was assumed that the last common ancestor of Deuterostomia, Ecdysozoa and Spiralia had a segmented and coelomate body organization resembling that of an annelid. On the contrary, the traditional view is the evolution of Bilateria from a simple body organization towards more complex forms, assuming that the last common ancestor of Bilateria resembles a platyhelminth-like animal without coelomic cavities and segmentation. To resolve this question, it is necessary to unravel the phylogenetic relationships within Bilateria. By using mitogenomic and phylogenomic data, this thesis had a major contribution to clarify phylogenetic relationships within problematic metazoan taxa: (1) the phylogeny of Deuterostomia, (2) the questionable monophyly of Platyzoa, and first assumptions concerning the phylogeny of Gnathostomulida, Gastrotricha and Polycladida, (3) phylogenetic relationships within annelid taxa, especially Terebelliformia, Diurodrilidae, and Syllidae, with new insights into the evolution of mitochondrial gene order, and (4) new insights into the evolution of annelids, especially the interstitial ones, as well as the colonization of the interstitial realm.
23

Phylogenomic analysis of energy converting enzymes / Phylogenomische Analyse energieumwandelnder Enzyme / Филогеномный анализ энергопреобразующих ферментов

Dibrova, Daria 12 June 2013 (has links)
In this thesis, phylogenomic and comparative structural analyses of several widespread energy converting enzymes were performed. The focus was on the major subfamilies of the enzymes that process nucleoside triphosphates (ATP and GTP) and on some key enzymes of the electron transfer chains. First, we analyzed the P-loop GTPases, RadA/RecA recombinases, chaperone GroEL, branched-chain α-ketoacid dehydrogenase kinases, chaperone Hsc70, actins, and membrane pyrophosphatases. In the each inspected family we could identify (1) members which were potassium-dependent and/or contained K+ ions in the active site, and (2) potassium-independent enzymes with lysine or arginine residues as catalytic groups that occupy the positions of potassium ions in the homologous, K+-dependent enzymes. Based on the results of our analyses, we suggest that the appearance of the K+-binding sites could precede in evolution the recruitment of positively charged residues (lysine or arginine "fingers") with the latter providing more possibilities to control the enzyme reactions. Second, we have described the distinctive features of a phylogenetically separated subfamily of rotary membrane ATPases which we named N-ATPases. The N-ATPases have a specific operon organization with two additional subunits, absent in other rotary ATPases, and a complete set of Na+-binding ligands in the membrane c-subunits. We made a prediction, which was later confirmed, that these enzymes are capable of Na+ translocation across the membrane and may confer salt tolerance on marine prokaryotes. Third, phylogenomic analysis of the cytochrome bc complexes suggests that these enzyme complexes initially emerged within the bacteria and were then transferred to archaea via lateral gene transfer on several independent occasions. Our analysis indicates that the ancestral form of the cytochrome bc complex was a b6f-type complex; the fusion of the cytochrome b6 and the subunit IV to a "long" cytochrome b of the cytochrome bc1 complexes could have happened in different lineages independently. Fourth, our phylogenomic and comparative structural analyses of the cytochrome bc1 complex and of cytochrome c allowed us to trace how these enzymes became involved in triggering of apoptosis in Metazoa. We could trace the emergence of a specific cardiolipin-binding site within the cytochrome bc complex and the evolution of structural traits that account for the involvement of the cytochrome c as a trigger of apoptosis in vertebrates.

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