National Repository of Grey Literature 3 records found  Search took 0.00 seconds. 
Pyrosequencing analysis of fungal assemblages and the effect of ITS rDNA intragenomic variation on diversity estimates
Zelenka, Tomáš ; Kolařík, Miroslav (advisor) ; Větrovský, Tomáš (referee)
The ITS region of nuclear ribosomal DNA has recently become a frequently studied region for its use as a barcode marker. It is employed in environmental metagenomic analyses, the determination of fungi and in studies of fungal phylogenetics. In genomes, rDNA occurs in the form of large multicopy tandem arrays. Thus common Sanger sequencing leads to a consensus of many copies which in fact conceals most of the potential intragenomic variation. However 454 pyrosequencing reveals the sequence of single copies. Although it is believed that most of the variation among copies is reduced during a process called concerted evolution, some variation might still be conserved, including variation of non-functional pseudogenes. As a consequence, when using 454 pyrosequencing, we are not able to discriminate between this variation and real diversity. This could have a huge impact on the estimation of real diversity as well as on the correct assessment of pyrosequence studies. This thesis reviews current knowledge of intragenomic variation among fungi and summarizes some papers applying pyrosequencing in the research of fungal diversity. At the same time it indicates intragenomic variation as a potential cause of untrue diversity in diversity studies. Up until now there hasn't existed any experimental survey covering...
Pyrosequencing analysis of fungal assemblages and the effect of ITS rDNA intragenomic variation on diversity estimates
Zelenka, Tomáš ; Kolařík, Miroslav (advisor) ; Větrovský, Tomáš (referee)
The ITS region of nuclear ribosomal DNA has recently become a frequently studied region for its use as a barcode marker. It is employed in environmental metagenomic analyses, the determination of fungi and in studies of fungal phylogenetics. In genomes, rDNA occurs in the form of large multicopy tandem arrays. Thus common Sanger sequencing leads to a consensus of many copies which in fact conceals most of the potential intragenomic variation. However 454 pyrosequencing reveals the sequence of single copies. Although it is believed that most of the variation among copies is reduced during a process called concerted evolution, some variation might still be conserved, including variation of non-functional pseudogenes. As a consequence, when using 454 pyrosequencing, we are not able to discriminate between this variation and real diversity. This could have a huge impact on the estimation of real diversity as well as on the correct assessment of pyrosequence studies. This thesis reviews current knowledge of intragenomic variation among fungi and summarizes some papers applying pyrosequencing in the research of fungal diversity. At the same time it indicates intragenomic variation as a potential cause of untrue diversity in diversity studies. Up until now there hasn't existed any experimental survey covering...
Taxonomic study of the Eurasian taxa of Tortula muralis (Pottiaceae, Musci) complex
KOŠNAR, Jiří
The thesis aims at clarifying the taxonomic difficulties in the Tortula muralis complex. For the first time, the group was studied by means of morphometric analysis, ploidy level assessment by flow cytometry, and molecular analysis based on sequencing of ITS region of nuclear ribosomal DNA. Morphometric and cytometric studies found only two well distinguished groups within the complex. These groups corresponded to the markedly variable species T. muralis and to the rather uniform species T. lingulata. Variability in ITS sequences suggested extensive gene flow among some of traditional morphologically defined taxa of the complex. Multiple polytopic autopolyploid origin of polyploids was revealed in some taxa. Changes in taxonomic conception of T. muralis complex were proposed in order to reflect structure of morphological, karyological, and DNA variability in the group. Natural hybridization is probably an important evolutionary mechanism that generated morphological diversity and taxonomic complexity in the mosses of T. muralis complex.

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