Bakteriální REP elementy: původ, variabilita a využití. / Bacterial REP elements: origins, variability and application.

Nunvář, Jaroslav

January 2013

4 ABSTRACT (English) This thesis is based on three published research papers studying bacterial REP (repetitive extragenic palindrome) elements. REP elements are one of the best-characterized groups of bacterial DNA repeats, distributed mostly in gammaproteobacteria, including enterobacteria. They are present in noncoding parts of host genomes, usually occurring in hundreds of copies. REPs are typically aggregated in higher order repeats. In the Gram-negative model Escherichia coli, interactions of several proteins important for cell's physiology with REPs were described, indicating significant role for these elements for host cells. The first work (Nunvar et al. 2010) presents the discovery of a protein class, related to IS200/IS605 transposases. These proteins, termed RAYTs (REP-associated tyrosine transposases), contain characteristic motifs in their amino acid sequences, which are absent in canonical IS200/IS605 transposases. Another attribute of RAYTs is the arrangement of their encoding genes. These are single copy genes, always flanked at both termini by at least two REPs in inverted orientation. Based on the similarity between the REP-rayt-REP unit and insertion sequences of the IS200/IS605 family, between RAYTs and tyrosine transposases and between REPs and subterminal sequences of the IS200/IS605...

Evaluation of Ultradwarf Bermudagrass Cultural Management Practices and Identification, Characterization, and Pathogenicity of Ectotrophic Root-Infecting Fungi Associated with Summer Decline of Ultradwarf Bermudagrass Putting Greens

Vines, Phillip Lavelle

14 August 2015

This research addressed the effects of cultural management practices, cultivar selection, and applications of seasonal fungicides on ultradwarf bermudagrass health and playability and occurrence of foliar diseases. Additionally, novel ectotrophic root-infecting fungi were isolated from ultradwarf bermudagrass roots exhibiting symptoms of summer decline, identified via multilocus phylogenetic analyses, and characterized by morphological assessments and pathogenicity evaluations.

cultural management

ultradwarf bermudagrass

dollar spot

leaf spot

summer decline

ectotrophic root-infecting fungi

pathogenicity

molecular phylogenetics

novel species

multilocus

Odhalování skryté druhové diverzity u krásivek (Desmidiales, Viridiplantae) / Unveiling hidden species diversity in desmids (Desmidiales, Viridiplantae)

Šťastný, Jan

January 2013

The delineation of desmid species was traditionally based on purely morphological features. However, a frequent misinterpretation of morphological variability in desmids has led in the past to extensive taxonomical confusion within this important group of green algae which complicates the interpretation of their biodiversity in freshwater ecology, biogeography and biomonitoring. Consequently, I focused in this thesis predominantly on a previously neglected issue, the application of polyphasic approaches in the species-level taxonomy of desmids. In the most studies, a combination of both traditional morphological and modern molecular phylogenetic and geometric morphometric methods has been used to evaluate the taxonomy of selected desmid species, particularly representatives of the morphologically complex genera Micrasterias and Xanthidium. In two papers, I used the combination of traditional morphological and autecological data to clear up the taxonomy of several morphologically less prominent desmid taxa. Generally, the results of the thesis demonstrated that the way we recently see the diversity and distribution of desmids should be thoroughly changed. The real species diversity is mostly distinctly finer than that estimated by classical morphological taxonomy, often corresponds to varieties of...

Evolution and Classification of the Cariceae-Dulichieae-Scirpeae Clade (Cyperaceae)

Léveillé-Bourret, Étienne

07 May 2018

For over a century, the origins and mechanisms underlying the diversification of the enormous cosmopolitan genus Carex (>2,100 species; Cariceae, Cyperaceae or sedge family) have remained largely speculative. Although its unique morphology (e.g., unisexual flowers, perigynia) clearly indicated it was a natural group, it obscured its relationships to all other Cyperaceae because the morphological gap between it and the rest of the family was so wide. Consequently, no plausible sister group to Carex has ever been proposed. Early molecular analyses narrowed the problem by placing Carex within a strongly-supported clade with the enigmatic monospecific genus Khaosokia, and tribes Dulichieae and Scirpeae (hereafter CDS), a group consisting of 2,250 species, or approximately 41% of all Cyperaceae. However, poor taxonomic sampling and the limited number of molecular markers used in these studies meant that the sister group to Carex remained a mystery. The goals of this thesis were to resolve evolutionary relationships within the CDS clade, to identify the sister group to Carex, and to develop a new natural tribal classification of CDS that could be used in future biogeographic and comparative analyses of Carex and its relatives. Initial phylogenetic analyses using two plastid markers (matK, ndhF) identified seven major CDS lineages, and suggested that Carex could be nested within a paraphyletic Scirpeae. However, backbone support for these relationships was low due to an ancient rapid radiation (~10 million years) followed by long divergence of the seven major lineages (~40 million years). The addition of conventional sequence-based markers from the plastid genome (rps16) and nuclear ribosomal region (ETS-1f, ITS) indicated that a traditional molecular approach would not resolve these key backbone nodes. Consequently, a recently developed flowering-plant-specific anchored enrichment probe kit targeting hundreds of conserved nuclear genes combined with next generation sequencing was used to resolve the CDS backbone. Although the resulting phylogenomic dataset was able to resolve the CDS backbone with high support, the topology and branch lengths only reaffirmed the isolated position of Carex. However, comparative morphological analyses of specimens at key herbaria not only suggested that Sumatroscirpus, a rare genus thought to be endemic to Sumatra, could be sister to Carex, but they also provided an easily accessible site to collect DNA in Northern Vietnam. Subsequent phylogenetic analyses of plastid (matK, ndhF, rps16) and nuclear ribosomal (ETS-1f, ITS) markers strongly supported Sumatroscirpus as the sister to Carex, and molecular dating estimates suggested they shared a common ancestor in the late Eocene (~36 million years ago). Comparative studies and ancestral state estimates of key morphological characters were congruent with this hypothesis, suggesting that the perigynium is not unique to Carex, but in fact a synapomorphy shared with Sumatroscirpus. This means that the initial key innovation in the remarkable diversification of Carex is not the perigynium, but could be the release of mechanical constraints that permitted the evolution of the remarkable morphological diversity of Carex perigynia seen today. A taxonomic revision of Sumatroscirpus revealed that this purportedly monospecific genus actually consisted of four species, and it extended its range over 2,400 km to the north into Northern Vietnam, Myanmar, and Southwestern China. The phylogenetic framework provided by the previous studies enabled a new tribal and generic classification of CDS to be proposed. Seven monophyletic tribes are recognised including four new tribes (Calliscirpeae, Khaosokieae, Sumatroscirpeae, Trichophoreae), and a new genus (Rhodoscirpus). Morphological synapomorphies are identified for all recognized tribes, and a worldwide treatment, including identification keys, is provided for Sumatroscirpus species, CDS genera, and Cyperaceae tribes.

Anchored Phylogenomics

Carex

Cariceae

Classification

Cyperaceae

Dulichieae

Homology

Molecular phylogenetics

Morphology

Perigynium

Plant systematics

Rhodoscirpus

Scirpeae

Sumatroscirpeae

Sumatroscirpus

Taxonomic revision

Taxonomy

New tribes

New species

New genus

Diverzita a rozšíření druhového komplexu Euastrum humerosum / didelta (Desmidiales) / Diversity and distribution of the Euastrum humerosum / didelta (Desmidiales) species complex

Kupčíková, Eva

January 2019

From 23 European and North American strains Euastrum humerosum/didelta species complex (Desmidiales) I have obtained 3 lineages in molecular marker trnGucc group II intron. I did not acquire significant and homogenous results in SSU intron. It is probable that the lineages of trnGucc intron are very young. SEM revealed one central pore in cell wall and five bulges. The lineages were significantly different in their shape and dimensions. The lineages differentiated mainly in their length and breadth of the cells. The lineages inside morphotype E. humerosum differentiated in shape and dimensions of the polar lobe. The lineages inside morphotype E.didelta differentiated in shape and dimensions of the neck. That was ascertained using the geometric morphometrics with the measuring. Linear discriminant analysis of the desmids from literature revealed that is possible to partly discriminate groups of the varieties (E. humerosum var. parallelum and E. didelta in lineage A; two formae E. didelta f. val Piora and E. didelta f. latior in lineage B; E. didelta var. inermiforme and E. humerosum var. affine in lineage C). Key words: desmids, species, hidden diversity, molecular phylogenetics, geometric morphometrics, Euastrum, scanning electron microscopy

Diverzita a rozšíření druhového komplexu Euastrum humerosum / didelta (Desmidiales) / Diversity and distribution of the Euastrum humerosum / didelta (Desmidiales) species complex

Kupčíková, Eva

January 2018

From 23 European and North American strains Euastrum humerosum/didelta species complex (Desmidiales) we have obtained 3 lineages in molecular marker trnGuuc group II intron. We did not acquire significant and homogenous results in SSU intron. It is probable that the lineages are very young. The lineages were significantly different in their shape and dimensions. We used the geometric morphometrics with the measuring of the lengths and breath of the semicells, isthmus and their ratios. The lineages differentiated in their dimensions and shape variable polar lobes and neck. SEM revealed the one central pore in cell wall on the contrary, with variant E. didelta var. bengalicum, which has two pores according the literature records. Key words: desmids, species, hidden diversity, molecular phylogenetics, geometric morphometrics, Euastrum, scanning electron microscopy

Fylogenetické analýzy myxosporeí na základě molekulárních dat / Phylogenetic analyses of myxosporeans based on the molecular data

BARTOŠOVÁ, Pavla

January 2010

This thesis is focused on the assessment of the phylogenetic position of the Myxozoa within the Metazoa, study of the evolutionary relationships within myxosporeans and investigation into the cryptic species assemblages of several myxosporeans based on the ribosomal and protein-coding data. The major part of this work was to confirm the evolutionary trends within myxosporeans based on a single gene by other molecular markers in order to find out if the reconstructed relationships correspond to the real organismal phylogeny. This has been a crucial step for future actions in solving the discrepancies between the myxosporean phylogeny and taxonomy.

A biogeographic view on Southeast Asia's history

Stelbrink, Björn

06 January 2015

Das tropische Südostasien, und besonders der Indo-Australische Archipel, ist bekannt für seine bemerkenswerte floristische und faunistische Diversität, besonders konzentriert in vier der identifizierten Biodiversitäts-Hotspots (Indochina, Sundaland, die Philippinen und Wallacea). In dieser Arbeit wird die biogeographische Geschichte Südostasiens beleuchtet, um Regionen mit einer erhöhten Biodiversität zu identifizieren und zu testen, ob dies mit Diversifikationen innerhalb der Region und Einwanderungen und/oder Auswanderungen korreliert und ob sich diese Faktoren über die Zeit hinweg ausgleichen. Ein besonderer Augenmerk wird auf Sulawesi und seine besondere Fauna gelegt, um zu testen, ob ein Ursprung durch Vikarianz für verschiedene Tiergruppen plausibel erscheint und wann Diversifikationen innerhalb der Fisch- und Schnecken-Radiationen im Malili-Seensystem begannen. Dabei wird auf Meta-Analysen und mehrere Disziplinen zurückgegriffen für eine integrative biogeographische Geschichte Südoastasiens und seiner Fauna, indem molekulare Uhr-Analysen, Berechnungen zur Ermittlung des Ursprungsortes mit tektonischen, paläogeographischen und klimatischen Rekonstruktionen verbunden werden, um potentielle Ursachen für die heutige Verbreitung zu finden. / Tropical Southeast Asia, and particularly the Indo-Australian Archipelago, is known for its tremendous floral and faunal biodiversity, mainly accumulated in four of the world’s biodiversity hotspots identified (Indochina, Sundaland, the Philippines, and Wallacea). Here, Southeast Asia’s biogeographic history is examined to identify areas being characterized by high levels of biodiversity (number of lineages, species richness) through time and to test whether the respective biota is mainly due to in situ diversification, immigration and/or emigration, or equilibrium dynamics. Moreover, this thesis focuses particularly on Sulawesi and its peculiar fauna to test if a vicariant origin appears plausible for certain groups and when the remarkable fish and snail radiations found in the Malili Lakes system started to diversify. To achieve this, meta-analytical and multi-disciplinary approaches are considered for an integrative historical biogeographic history of Southeast Asia and its biota by using molecular clock analyses and ancestral area estimations together with tectonic, palaeogeographic and climatic reconstructions to reveal potential causes for present-day distribution.

Südostasien

Biogeographie

Vikarianz

Dispersal

Flora

Fauna

Paläontologie

Paläogeographie

Molekulare Phylogenetik

Molekulare Uhr-Analysen

Southeast Asia

biogeography

vicariance

dispersal

flora

fauna

palaeontology

palaeogeography

molecular phylogenetics

molecular clock analyses

570 Biowissenschaften, Biologie

32 Biologie

WI 8750

ddc:570

Advances in angraecoid orchid systematics in Tropical Africa and Madagascar: new taxa and hypotheses for their diversification

Nunes De Matos Farminhão, João

22 April 2021

Les angrecoïdes constituent le groupe d'orchidées épiphytes le plus diversifié dans les Afrotropiques, comprenant environ 800 espèces. Bien que beaucoup d'attention leur aient été porté, certaines énigmes taxonomiques subsistent au sein des angraecoïdes, et les facteurs à l'origine de leur diversification rapide sont encore inconnus. Les angraecoïdes présentent une remarquable diversité en termes du nombre chromosomique, en faisant un système très approprié pour explorer l'impact des changements caryotypiques sur la cladogenèse, les taux de spéciation/extinction et la diversification morphologique dans le contexte des fluctuations climatiques en Afrique tropicale depuis le Miocène. En outre, grâce au large éventail des longueurs d'éperon nectarifère que ces orchidées présentent, elles ont fait l'objet, depuis Darwin, de recherches approfondies dans le cadre des interactions plantes-animaux. Ici, sur base de nouveaux arbres phylogénétiques produits en utilisant ITS-1 ainsi que cinq marqueurs plastidiques et englobant environ 40 % des espèces, nous fournissons un nouveau cadre taxonomique pour les principales lignées d'Angraecinae. De plus, le cadre taxonomique des angraecoïdes est mis à jour avec, notamment, la description de trois nouveaux genres et six nouvelles espèces. Cette nouvelle hypothèse phylogénétique nous a permis d'étudier si les changements des caryotypes et des pollinisateurs ont pu être les moteurs de la radiation évolutive des angraecoïdes. La reconstruction des états ancestraux du nombre chromosomique révèle une histoire caryotypique dominée par la dysploïdie descendante en Afrique tropicale continentale, où environ 90 % des espèces dérivent d'au moins un changement inféré de n = 17–18 à n = 25 au Miocène moyen. L’examen des intervalles de position du nectar par rapport au pollen dans les Afrotropiques a révélé qu'environ 3 % de la flore des angiospermes de Madagascar est probablement pollinisée par des sphinx, alors que cette proportion est d'environ 1,6 % en Afrique continentale. Les nombreux changements de guilde de pollinisateur vers la sphingophilie ayant eu lieu chez les angraecoïdes seraient à l’origine d’environ 31 % des espèces, y compris certaines lignées ayant les taux de spéciation les plus élevés. En dehors du domaine de la sphingophilie, de nouveaux exemples possibles d’ornithophilie, de phalénophilie et de pollinisation par des tipules à long proboscis/microlepidoptères sont discutées. Des perspectives de recherche concernant l'évolution génomique chez les angraecoïdes et l'impact et les mécanismes des changements des sites de fixation des pollinies sont suggérées. Enfin, certaines priorités pour l’observation de nouveaux pollinisateurs sur le terrain et les frontières de l’alpha et bêta-taxonomie chez les angraecoïdes sont présentées. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Botanique systématique

Botanique générale

Evolution des espèces

Morphologie végétale

Ecologie [végétale]

Ecologie

Orchidaceae

molecular phylogenetics

hawkmoth pollination

chromosome number

polyploidy

descending dysploidy

plant-animal interactions

Sphingidae

new species

new genera

taxonomy

Revision and Molecular Systematics of the Neotropical Fern Genus <i>Adiantopsis</i> (Pteridaceae)

Link-Pérez, Melanie A.

23 April 2010

No description available.

Biology

Botany

<i>Adiantopsis</i>

cheilanthoids

diversity

ferns

neotropical

taxonomy

<i>atpA</i>

molecular phylogenetics

<i>rbcL</i>

fern biogeography