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Caracterização da função da froteína Nop17p de Saccharomyces cerevisiae / Characterization of the function of the protein Nop17p Saccharomyces cerevisiaeFernando Alexis Gonzales Zubiate 16 September 2005 (has links)
Um grande número de proteínas está envolvido no processamento de rRNA, e cada uma delas desempenha uma ação específica, seja como um fator estrutural, regulatório ou catalítico. Apesar da biogênese dos ribossomos ter sido intensamente estudada, ainda não se tem conhecimento claro da função de muitas proteínas envolvidas neste mecanismo. Dentre os snoRNPs, o grupo denominado box C/D é responsável pela metilação e clivagens no pré-rRNA. Através da análise de interação proteína-proteína do sistema do duplo híbrido a proteína aqui denominada Nop17p foi isolada interagindo com a proteína Rrp43p, uma subunidade do exossomo. Estudos de microarray mostraram que o mutante nulo Δnop17 tem o mesmo fenótipo que mutantes de genes envolvidos em tradução. No presente trabalho apresentamos uma análise detalhada da função da Nop17p e a importância da sua interação com a proteína Nop58p, componente do snoRNP de box C/D. Observamos também um defeito na função da Nop58p na ausência da Nop17p e outro dado importante apresentado aqui é que a localização sub-celular de componentes de snoRNPs de box C/D não é correta na ausência de Nop17p. Estes resultados evidenciam um envolvimento direto entre Nop17p e snoRNPs de box C/D, com um papel de regulação da função e/ou na montagem desses complexos. Apresentamos também dados com a proteína homóloga de humanos (hNop17p), que foi expressada na cepa Δnop17 de levedura e que conseguiu suprimir parcialmente o fenótipo termo-sensível dessa cepa, demonstrando uma possível conservação da função de Nop17p ao longo da evolução. / In eukaryotes, pre-rRNA processing depends on cis-acting elements and on a large number of non-ribosomal trans-acting factors, including endonucleases and exonucleases, RNA helicases, rRNA modifying enzymes and components of snoRNPs. The exosome is a conserved eukaryotic protein complex containing multiple 3\'-5\' exonucleases, which has been implicated in pre-rRNA, snoRNA and snRNA processing, as well as in mRNA degradation. In order to identify new proteins involved in rRNA processing, we have screened a yeast two-hybrid cONA library, to isolate proteins interacting with the exosome subunit Rrp43p. In this screen, a novel nucleolar protein, Nop17p, was identified which also interacts with the box C/D snoRNP protein Nop58p. The NOP17 gene is not essential for cell viability but its deletion causes a temperature-sensitive phenotype. Pre-rRNA processing analyses revealed that rRNA formation is affected in the Δnop17 strain subjected to the non-permissive temperature, although it is not blocked completely. In addition, primer extension analyses of RNA isolated from Nop17p-depleted cells subjected to the non-permissive temperature indicates that the pre-rRNA is undergoing different modification or degradation processes in these cells as compared to the parental strain. Nop17p was recently described in the same complex as Nop58p and, interestingly, its depletion leads to mislocalization of Nop1p, Nop56p, Nop58p and Snu13p, which are the core proteins of the box C/D ribonucleoprotein (snoRNP), indicating that Nop17p function is required either for nucleolar retention or for the proper assembly ofthe box C/D snoRNP.
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Cytogenetika vybraných skupin paprskoploutvých ryb (Actinopterygii): Evolučně -ekologické aspekty spjaté s dynamikou repetitivních sekvencí a s výskytem polyploidie / Cytogenetics of selected groups of ray-finned fishes (Actinopterygii): Evolutionary-ecological questions associated with the dynamics of repetitive sequences and the occurrence of polyploidySember, Alexandr January 2016 (has links)
Ray-finned fishes (Actinopterygii) exhibit the greatest biodiversity among vertebrates. The vast majority of extant actinopterygian fish species belong to clade Teleostei - a lineage whose significant evolutionary success might have resulted from a teleost specific whole- genome duplication (TSGD) that occurred at the onset of this group, subsequent to its divergence from the rest of actinopterygian lineages. Despite the growing body of sequenced fish genomes and analyses of their transcriptomes, the largest contribution to understanding fish genomes comes from analyses of DNA content and from cytogenetics. Genomes of ray-finned fishes and especially those of Teleostei exhibit vast diversity and rapid dynamics of repetitive DNA sequences whose variability is reflected in a wide range of fish genome sizes and in the dynamics behind karyotype differentiation. Therefore, ray-finned fishes offer a unique opportunity to study genome variability as a driving force underlying morphological and ecological diversification, evolution and adaptation. Particularly, the mapping of repetitive DNA sequences by means of fluorescence in situ hybridization (FISH) has proven to be a very useful and informative approach during the last two decades and contributed greatly to our understanding of the fish genome...
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Characterisation of selected Culicoides (Diptera : Ceratopogonidae) populations in South Africa using genetic markersDebeila, Thipe Jan 20 June 2011 (has links)
Culicoides (Diptera: Ceratopogonidae) are small (<3mm) blood feeding flies. These flies are biological vectors of viruses, protozoa and filarial nematodes affecting birds, humans, and other animals. Among the viruses transmitted those causing bluetongue (BT), African horse sickness (AHS) and epizootic haemorrhagic disease (EHD) are of major veterinary significance. Culicoides (Avaritia) imicola Kieffer, a proven vector of both AHS and BT viruses, is the most abundant and wide spread livestock-associated Culicoides species in South Africa. Field isolations of virus and oral susceptibility studies, however, indicated that a second Avaritia species, C. bolitinos Meiswinkel may be a potential vector of both BT virus (BTV) and AHS virus (AHSV). Differences in oral susceptibility, which are under genetic control, of populations from different geographical areas to viruses may be an indication of genetic differences between these populations, which may be the result of limited contact between these populations. A good knowledge of the distribution, spread and genetic structure of the insect vector is essential in understanding AHS or BT disease epidemiology. In the present study, an effort was made to gather field specimens of both C. imicola and C. bolitinos from different areas within their natural distribution in South Africa. The aim was to partially sequence two mitochondrial genes from these specimens and to analyse the sequence data making use of phylogenetic trees to clarify the genetic relationships between individuals or groups collected from geographically distinct sites. The two species were collected from four geographically separated areas in South Africa viz. Gauteng Province, Eastern Cape Province, Western Cape Province as well as the Free State Province. DNA was extracted from a total of 120 individual midges of the two Culicoides species using DNA extraction kits. Extracted DNA was analysed using PCR, sequencing as well as phylogenetic methods. A total of 117 mitochondrial DNA COI and 104 mitochondrial 16S ribosomal RNA Culidoides</i. sequences were analysed. DNA sequence polymorphism and phylogenetic relationships of various groups of C. imicola and C. bolitinos midges were determined. The results of the phylogenetic analysis of Culicoides populations using mitochondrial COI gene fragment showed that, at least one subpopulation of C. imicola and two distinct genotypes of C. bolitinos species do exist in South Africa, and further analysis is necessary. This study showed that COI has the potential to separate Culicoides midges based on their geography / Dissertation (MSc)--University of Pretoria, 2010. / Veterinary Tropical Diseases / unrestricted
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Physical Models of Biochemicallly Important Molecules Using Rapid Prototyping TechniquesZubricky, James R., III 28 June 2006 (has links)
No description available.
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