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271	Análise da biodiversidade microbiana em ambiente aquático com despejo contínuo de efluentes de hidrocarbonetos Ruiz, Marelis Margarita 02 February 2014 (has links) Submitted by Geyciane Santos (geyciane_thamires@hotmail.com) on 2015-07-09T14:19:32Z No. of bitstreams: 1 Tese - Marelis Margarita Ruiz.pdf: 48193021 bytes, checksum: 4e7e0fa3715216dbc1c8be5df2d8a197 (MD5) / Approved for entry into archive by Divisão de Documentação/BC Biblioteca Central (ddbc@ufam.edu.br) on 2015-07-09T14:27:06Z (GMT) No. of bitstreams: 1 Tese - Marelis Margarita Ruiz.pdf: 48193021 bytes, checksum: 4e7e0fa3715216dbc1c8be5df2d8a197 (MD5) / Approved for entry into archive by Divisão de Documentação/BC Biblioteca Central (ddbc@ufam.edu.br) on 2015-07-09T14:30:24Z (GMT) No. of bitstreams: 1 Tese - Marelis Margarita Ruiz.pdf: 48193021 bytes, checksum: 4e7e0fa3715216dbc1c8be5df2d8a197 (MD5) / Made available in DSpace on 2015-07-09T14:30:24Z (GMT). No. of bitstreams: 1 Tese - Marelis Margarita Ruiz.pdf: 48193021 bytes, checksum: 4e7e0fa3715216dbc1c8be5df2d8a197 (MD5) Previous issue date: 2014-02-02 / Não Informada / In the Amazon region, the Urucu Oil Province (Petrobras) has been disposing of hydrocarbon effluents into the surrounding aquatic environments since the beginning of its operations. The goal of this work was to analyze the bacterial biodiversity present in the dike of the effluents and in the stream before and after the disposal of hydrocarbon effluents. A study was conducted in two stages were carried out with the use of culture independent molecular techniques. The full genomic DNA of the sediment and water samples were extracted and used as templates in a PCR reaction with the use of specific oligonucleotides of the 16S rRNA gene bacteria domain. The PCR product was amplified and pyrosequenced, and the generated sequences were analyzed by the free software Mothur. The measurements of the physical-chemical and chromatographical parameters are within the measures established for these types of analyzed water bodies. In the first stage of the study, the taxonomic profiles of the samples have shown that the Proteobacteria phylum proved to be the most abundant together with the Deltaproteobacteria class and the gen known as Candidatus Solibacter. Similarly, in the second stage of the study, the Proteobacteria phylum proved to be the most abundant together with the Alphaproteobacteria class and the Geobacter gen predominant. Both genes are catalogued as bioremediators in contaminated environments, as well as 14% of the total genes. A large proportion of microorganisms were considered “Unclassified” (up to 30%). In first stage of the study the richness and the diversity of species in the Onça stream is greater following the disposal of hydrocarbon effluents, in second stage of the study the abundance and diversity of species in the natural stream (without a name in the region), is greater as compared to the same stream after the mixing of effluents. There is no significant statistical difference between the sample of the community in the natural stream and this effluent-mixed stream; and there is no difference in genetic structure among samples of each community analyzed, suggesting that the discharge of effluents in this body of water has no significant impact on the microbial biodiversity in this aquatic environment. This work, a pioneer in the taxonomic analysis of samples in dikes of effluents and streams with the disposal of effluents in the Urucu oil area, represents a challenge for understanding the relationship between the composition, abundance and diversity of microorganisms in this environment, and a rich source for the discovery of new taxonomic groups, as well as the huge potential for biotechnological exploration of such diversity. / Na região Amazônica, a Província Petrolífera de Urucu (Petrobras) realiza o despejo de efluentes de hidrocarbonetos em ambientes aquáticos ao redor, desde o início de suas operações. O objetivo deste trabalho foi analisar a biodiversidade bacteriana presente no dique de efluentes e no igarapé antes e depois do despejo de efluentes. Foi realizado um estudo em duas etapas, aplicando técnicas moleculares independentes de cultivo. O DNA genômico total das amostras de sedimento e água foi extraído e usado como molde em uma reação de PCR utilizando oligonucleotídeos específicos do gene 16S rRNA para o domínio Bactéria. O produto de PCR foi amplificado e pirosequenciado, e as sequências geradas foram analisadas pelo programa livre Mothur. As medidas dos parâmetros físico-químicos e cromatográficos estão dentro dos valores estabelecidos para os tipos de corpos de água analisados. Na primeira etapa do estudo, os perfis taxonômicos das amostras mostraram que o filo Proteobacteria foi o mais abundante com a classe Deltaproteobacteria e gênero conhecido o Candidatus Solibacter. Assim mesmo, na segunda etapa do estudo, o filo Proteobacteria foi o mais abundante; porém, com a classe Alphaproteobacteria e o gênero Geobacter como predominante. Ambos gêneros são catalogados como biorremediadores de ambientes contaminados, assim como 14% dos gêneros totais. Uma grande parte de microrganismos foram considerados “Não Classificados” (até 30%). Na primeira etapa do estudo a riqueza e diversidade de espécies no Igarapé da Onça, é maior depois do despejo de efluentes de hidrocarboneto, e na segunda etapa do estudo a riqueza e diversidade de espécies no igarapé natural (sem nome na região), é maior com relação a este mesmo igarapé depois da mistura com efluentes. Não existe diferença estatística significativa entre a comunidade do igarapé natural e entre este igarapé misturado com efluentes; e não existe diferença na estrutura genética entre as amostras de cada comunidade analisada, indicando que a descarga de efluentes neste corpo de água não tem impacto significativo na biodiversidade microbiana deste ambiente aquático. Este trabalho, pioneiro em análise taxonômica de amostras de um dique de efluentes e os igarapés com despejo de efluentes na área petrolífera de Urucu, representa uma oportunidade para a compreensão da relação entre a composição, abundância e diversidade dos microrganismos neste ambiente, e uma fonte rica para descoberta de novos grupos taxonômicos, assim como um enorme potencial para exploração biotecnológica desta diversidade. Amazônia Atividade Petrolífera Índices de Riqueza Diversidade Pirosequenciamento Gene 16S rRNA Amazon Region Oil Activities Wealth Index Diversity Pyrosequencing CIÊNCIAS BIOLÓGICAS
272	Caracterização da função molecular de Nop53 e de seu papel no controle do exossomo em Saccharomyces cerevisiae / Characterization of the role of Nop53 in the control of the Saccharomyces cerevisiae exosome Leidy Paola Paez Cepeda 21 August 2017 (has links) Nop53 e uma protena nucleolar, conservada evolutivamente e essencial na levedura Saccharomyces cerevisiae para a biogênese da subunidade maior do ribossomo, 60S. O principal fenotipo causado pela repressão da expressão de Nop53 e o acumulo do intermedi ario de processamento de pre-Rrna, 7S, que tambem e substrato do complexo exossomo na formação do rRNA maduro 5:8S. Nop53 interage diretamente com a subunidade do exossomo Rrp6 e com a subunidade Mtr4 do co-ativador do exossomo TRAMP. O objetivo principal deste trabalho foi o de analisar como a interação entre Nop53 e o exossomo pode modular a atividade deste ultimo. Para isso, foram utilizados metodos bioqumicos, geneticos e de biologia molecular. Os resultados mostrados aqui demonstram que a depleção de Nop53 faz com que mais protenas ribossomais, principalmente da subunidade maior, sejam co-imunoprecipitadas com o core do exossomo, sugerindo que Nop53 possa ter um papel na liberação do exossomo da subunidade pre-60S depois da formação do rRNA maduro 5:8S. Esta hipotese foi conrmada atraves da separação de complexos por centrifugação em gradiente de glicerol, que mostrou a presenca de subunidades do exossomo em complexos maiores na ausência de Nop53, provavelmente correspondendo a partculas pre-ribossomais. Co-imunoprecipitação de RNA com o exossomo na ausência de Nop53 tambem conrmou uma maior associação deste complexo com o pre-rRNA 7S. Como tambem mostrado aqui, alem de interagir com Rrp6, Nop53 interage com subunidades do core do exossomo e a superexpressão de uma destas subunidades, Rrp43, complementa parcialmente a ausência de Nop53 na celula. Estes resultados levaram a conclusão de que Nop53 pode recrutar o exossomo para a partcula ribossomal pre-60S para a maturação do pre-rRNA 7S a 5:8S, e atue tambem na liberação do exossomo, possivelmente atraves de sua interação com a helicase Mtr4. / Abstract Nop53 is a nucleolar, conserved and essential protein in the yeast Saccharomyces cerevisiae, involved in the biogenesis of the large ribosomal subunit 60S. The main phenotype of the depletion of Nop53 in yeast cells is the accumulation of the prerRNA processing intermediate 7S, which is also the substrate of the exosome complex for the formation of the mature rRNA 5:8S. Nop53 directly interacts with the exosome subunit Rrp6, and with the subunit Mtr4 of the TRAMP complex, an exosome co-activator. The main objective of this work was the analysis of the interaction between Nop53 and the exosome and the identication of the mechanism through which Nop53 regulates the exosome activity. The results shown here demonstrate that the depletion of Nop53 leads to a more stable association of the exosome with the pre-60S ribosome particle, as determined by co-immunoprecipitation of proteins with one of the exosome core subunits, and by fractionation of complexes through glycerol gradients. These results suggested that Nop53 could play a role in the release of the exosome after the formation of the mature rRNA 5:8S. This hypothesis was conrmed through the co-immunoprecipitation of pre-rRNA 7S with the exosome in the absence of Nop53. In addition to the interaction with the exosome subunit Rrp6, as shown here, Nop53 also interacts with core subunits of the complex. Interestingly, overexpression of one of these subunits, Rrp43, partially complements the depletion of Nop53. These results led to the conclusion that Nop53 may recruit the exosome to the pre-60S particle for the maturation of the pre-rRNA 7S to the mature 5:8S, but Nop53 may also be involved in the release of the exosome, possibly through its interaction with the helicase Mtr4. Exossomo Nop53 processamento de RNA Saccharomyces cerevisiae Subunidade pre-60S Exosome Nop53 pre-60S ribosome particle rRNA processing Saccharomyces cerevisiae
273	A la recherche de nouvelles AgNORs: une famille de protéines nucléolaires conservées et marqueurs potentiels du cancers / AgNORs: a groups of concerved nucleolar proteins and potential markers of cancer Galliot, Sonia 15 January 2010 (has links) Comme le nucléole joue un rôle fondamental dans l’expression des protéines, via la synthèse des ARN ribosomiques, il n’est donc pas surprenant que des études aient révélé un lien étroit, entre des dysfonctionnements nucléolaires et l’origine de certaines maladies humaines. La découverte, il y a plusieurs années, d’un taux anormalement élevé de protéines nucléolaires dites argyrophiles ou AgNORs, dans les cellules tumorales, a permis d’envisager leur utilisation comme outil diagnostique ou pronostique du cancer. Détectées, de manière in vitro grâce à leur affinité pour l’argent, l’identification de quelques protéines AgNORs n’a pourtant pas permis d’établir une caractéristique commune à toutes les protéines argyrophiles détectées dans les extraits nucléolaires. Ainsi, bien que le test colorimétrique AgNOR soit utilisé dans de nombreux laboratoires académiques, l’absence d’identification de protéines AgNORs spécifiques du processus de cancérisation, a limité son utilisation en laboratoire clinique. Comme certaines limites technologiques et expérimentales ont limité leur caractérisation chez l’humain, nous avons donc décidé de reprendre les recherches sur ce sujet et de le réactualiser grâce aux avancées technologiques et scientifiques. Les protéines AgNORs étant étroitement liées à la biogenèse des ribosomes, nous avons donc décidé d’amorcer nos recherches chez la levure Saccharomyces cerevisiae, dans laquelle, la voie de biosynthèse des ribosomes a été particulièrement bien décrite. Devant l’intérêt biologique et médical de ces protéines, l’objectif de ce projet a donc été triple :<p>1-identifier des protéines AgNORs chez la levure<p>2-caractériser les propriétés physico-fonctionnelles et physico-chimiques de ces protéines AgNORs.<p>3-utiliser ces caractéristiques physico-chimiques pour rechercher de nouvelles AgNORs humaines, spécifiques de processus de cancérisation et potentiellement utilisables comme marqueurs tumoraux./The nucleolus is a subnuclear compartment that organized around ribosomal gene (rDNA) repeats NORs, which encode for ribosomal RNA. A peculiar group of acidic proteins which are highly argyrophilic are also localized at the same sites as NORs, thus allowing NORs to be very clearly and rapidly visualized by silver nitrate staining procedures. However, if three human argyrophilic proteins, UBF, C23 (nucleolin) and B23 (nucleophosmin), have been associated for staining of NOR, the exact number of AgNOR proteins and their intrinsic biochemical feature are unclear. Here, we have performed an heterologous screen in a genetically tractable eukaryotic organism (budding yeast) for the identification of novel AgNOR proteins and in vitro characterized an intrinsic feature that underlies silver binding and offers a strong predictive value for the identification of novel human AgNOR proteins. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie Nucleolus RNA Nucléole ARN Ag-NOR proteins; pre- rRNA processing.
274	Analyse fonctionnelle de la protéine Ki-67 dans le cycle cellulaire / Functional analysis of Ki-67 protein in the cell cycle Sobecki, Michal 11 December 2014 (has links) Ki-67 maintient l'hétérochromatine constitutive lors de la prolifération cellulaire. La protéine Ki-67 est fortement exprimée dans le noyau des cellules de mammifères en prolifération. Sa présence est devenue un marqueur de référence en histopathologie diagnostic dans le cancer avec 330 millions de références sur des sites Internet et plus de 18 000 articles indexés avec le mot clé Ki-67 dans PubMed. Malgré son utilisation comme référence incontestable de la prolifération cellulaire, les rôles fonctionnels, les régulations et les mécanismes moléculaires où Ki-67 est impliquée demeurent obscurs. Depuis l'identification de Ki-67 en 1983, les différentes études avec l'utilisation d'outils moléculaires (anticorps, oligonucléotide antisens, shRNA, siRNA) qui inhibent l'expression de Ki-67 dans des cellules cancéreuses de tous types ont mis en évidence une forte régression à leur prolifération. La localisation prédominate de Ki-67 est dans le nucléole, son inactivation photodynamique abroge la transcription de l'ARN ribosomal qui est requis pour la prolifération cellulaire. Le consensus est que Ki-67 favorise la prolifération cellulaire, mais à ce jour aucune étude n'a mis en évidence ni un mécanisme d'action, ni un rôle essentiel de Ki-67 dans la prolifération cellulaire in vivo. Dans notre travail, nous abordons la question du rôle de Ki-67 dans les cellules humaines cancéreuses non transformées en culture ainsi qu'in vivo chez la souris. Nous avons montré que Ki-67 n'est pas nécessaire pour la prolifération cellulaire. En revanche, Ki-67 est indispensable pour maintenir la structure de l'hétérochromatine constitutive. Nous avons mis en évidence des nouveaux mécanismes de régulation de l'expression de Ki-67 au cours du cycle cellulaire, sa transcription étant contrôlé par CDK4/6 via la phosphorylation de la protéine rétinoblastome, et sa dégradation en G1 tardive via APC/C-Cdh1. Après extinction de l'expression de Ki-67 par ARNi ou par ablation du gène de Ki-67 par la nouvelle approche TALEN, nous n'avons observé aucun effet sur la synthèse de l'ARN ribosomique, sur le déroulement normal du cycle cellulaire, sur le développement embryonnaire ou la fertilité de la souris. Par contre, son extinction inhibe la progression des tumeurs dans des modèles de Xénogreffes, et induit un remodelage du paysage de l'expression de certain gènes. Notre étude par protéomique des protéines interragissant avec Ki-67 a identifié des protéines nucléolaires à l'interface entre l'hétérochromatine périnucléolaires et les composants granulaires nucléolaires. Ces complexes protéiques empêchent la dispersion de l'hétérochromatine constitutive au cours du cycle cellulaire. Au vu de nos résultats, nous concluons que dans les cellules non-proliférantes l'anémie de Ki-67 est associée à la diffusion de l'hétérochromatine constitutive. Ki-67 est indispensable à la maintenance de cette hétérochromatine qui serait essentielle pour le développement des tumeurs. / Ki-67 links constitutive heterochromatin maintenance to cell proliferation.Ubiquitous nuclear expression of Ki-67 in proliferating mammalian cells has led to its use as a benchmark diagnostic marker for cell proliferation, especially in cancer histopathology. Its importance is reflected by over 330 million hits when searching using the keyword “Ki-67” on Google, and over 18,000 papers on PubMed. In spite of its use as a surrogate marker for cell proliferation, the mechanisms of regulation of Ki-67 expression and its physiological functions in cell proliferation remain obscure. Early functional studies found that inhibition of Ki-67 expression by injection of antisense oligonucleotides or inactivating antibodies into cultured cancer cells inhibited cell proliferation. This is in agreement with later results obtained by peptide-nucleic acid, antisense oligonucleotide, siRNA or shRNA experiments in various cancer cell lines. Photodynamic inactivation of Ki-67 abrogates ribosomal RNA transcription, consistent with its predominantly nucleolar localisation and apparent requirement for cell proliferation. However, a recent study in HeLa cells found only minor effects on the cell cycle distribution upon Ki-67 knockdown. Nevertheless, Ki-67 is required for localising several nucleolar proteins to the mitotic chromosome periphery, potentially providing a mechanism for nucleolar assembly, as previously suggested by segregating nucleolar components upon cell division and chromosome segregation. Therefore, although the consensus is that Ki-67 promotes cell proliferation, this has not been clearly demonstrated, and no studies have ascertained requirements for Ki-67 in vivo.In this work, we address these questions in non-transformed human cells and cancer cells in culture and in vivo in mice. We have shown that Ki-67 is dispensable for cell proliferation but is required to maintain constitutive heterochromatin. We found that Ki-67 expression is cell cycle-dependent due to dynamic control by CDK4/6 and Cdh1. However, silencing of Ki-67 by RNAi or a TALEN-mediated Ki-67 gene ablation had no effect on ribosomal RNA synthesis, cell cycling, mouse development or fertility, but prevented tumour progression and led to remodelling of the gene expression landscape in cycling cells. Interaction proteomics and functional assays revealed that Ki-67 defines the boundary between perinucleolar heterochromatin and the nucleolar granular components, and prevents dispersal of constitutive heterochromatin during cell cycling. Conversely, Ki-67 downregulation in non-proliferating cells is associated with constitutive heterochromatin dispersal. The results suggest that Ki-67 mediates organisation of heterochromatin, and allows efficient tumour progression. Ki-67 Cycle cellulaire Cancer Hétérochromatine La biosynthèse des ARNr Nucléole Ki-67 Cell cycle Cancer Heterochromatin RRNA biosynthesis Nucleolus
275	Le microbiote du DEMODEX associé à la rosacée / Rosacea-associated microbiota of Demodex Murillo, Nathalia 18 December 2013 (has links) Demodex est un genre d’acariens dont deux espèces sont connues pour coloniser la peau de l’homme : Demodex folliculorum et Demodex brevis. Leur implication dans le développement de la rosacée reste controversée. Cette maladie est caractérisée par une inflammation chronique de la peau et est définie en quatre sous-type majeurs : la rosacée érythémato-télangiectasique (ETR), la rosacée papulopustuleuse (PPR), la rosacée phymateuse et la rosacée oculaire. Certains pensent que le rôle des acariens est principalement d’exacerber une inflammation déjà enclenchée. Toutefois, l’isolation par culture d’un Bacillus oleronius à partir du broyat d’un Demodex de patient atteint de rosacée papulopustuleuse ont remis sur le devant de la scène le rôle de l’acarien en tant que vecteur de bactéries pathogènes. Le but de notre étude était de décrire le microbiote associé au Demodex par clonage du gène de l’ARN ribosomal 16S afin d’identifier par la suite d’éventuelles différences en fonction du statut de l’hôte (ETR, PPR ou sain). Le microbiote décrit présentait une diversité jusqu’alors insoupçonnée. Une partie des espèces identifiées n’avaient jamais été rapportées chez l’homme, pouvant donc correspondre au microbiote spécifique de l’acarien. Il serait composé comme d’une majorité de Protéobactéries. De manière intéressante, les proportions des phyla majeurs étaient différentes en fonction du groupe étudié. De plus, il semblerait que certaines espèces soient spécifiques des Demodex collectés chez des patients atteints de rosacée. Par exemple, Bartonella quintana n’a été détectée qu’à partir de Demodex d’une patiente atteinte de rosacée érythémato-télangiectasique. / Demodex is a genus of mites comprising two species known to colonize human skin: Demodex folliculorum and Demodex brevis. Their role in the pathogenesis of rosacea remains controversial. Rosacea is defined by a chronic inflammation of the skin and four main subtypes are defined : erythematotelangiectasic rosacea (ETR), papulopustular rosacea (PPR), phymatous rosacea and ocular rosacea. Mites are thought to be only involved in the exacerbation of a pre-existing inflammation. The growth of Bacillus oleronius from a crushed Demodex mite collected on a PPR patient gave rise to a new hypothesis that the mite is actually the vector of pathogenic bacteria. Present study aimed at describing the microbiote associated with Demodex mites by a 16S rRNA clone library approach. This allowed us to compare the obtained bacterial communities according to the group of patients the mites were collected from (erythematotelangiectasic rosacea, papulopustular rosacea or healthy subjects). The microbiota described here revealed an unexpected diversity. Part of the identified species had never been reported on human beings and could thus represent the microbiota specific to Demodex. As in many arthropods, this microbiota was predominantly composed of Proteobacteria. Interestingly, the proportion of the main phyla Proteobacteria, Firmicutes and Actinobacteria differed according to the host status. Though, some species appeared to be specific to Demodex collected from patients with erythematotelangiectasic rosacea or papulopustular rosacea. Among them, we identified Bartonella quintana only from a mite collected on a patient with erythematotelangiectasic rosacea. Demodex Acarien Rosacée Microbiote Bartonella quintana Clonage 16S Demodex Mite Rosacea Microbiota Bartonella quintana RRNA clone library 16S
276	Bioinformatický nástroj pro odhad abundance bakteriálních funkčních molekul v biologických vzorcích na základě metagenomických dat 16S rRNA / Bioinformatic Tool for Estimation of Abundances of Bacterial Functional Molecules in Biological Samples Based on 16S rRNA Metagenomic Data Bieliková, Michaela January 2019 (has links) Ľudské telo je prostredím pre život neuveriteľného množstva mikróbov. Niektoré z nich môžu spôsobovať rôzne choroby, ale ďalšie, napríklad črevný mikrobióm, sú pre život a zdravie človeka nepostrádateľné. Nanešťastie, črevný mikrobióm nie je detailne preštudovaný, pretože obsahuje tisíce rôznych druhov baktérií, z ktorých väčšina sa nedá kultivovať v laboratórnych podmienkach. Riešením tohto problému sú nové rýchle metódy sekvenovania v kombináciou s bioinformatickými nástrojmi na výpočet funkčného profilu baktérií vo vzorke. V tejto práci si predstavíme existujúce nástroje predpovedajúce funkčný profil, a následne navrhneme nový nástroj, ktorý môže implementovať konsenzus nad výsledkami existujúcich nástrojov, alebo sa môže jednať o úplne nový nástroj.
277	Expanding the SnoRNA Interaction Network: Conservation of Guiding Function in Vertebrates Kehr, Stephanie 12 December 2016 (has links) Small nucleolar RNAs (snoRNAs) are one of the most abundant and evolutionary ancient group of small non-coding RNAs. Their main function is to target chemical modifications of ribosomal RNAs (rRNAs) and small nuclear (snRNAs). They fall into two classes, box C/D snoRNAs and box H/ACA snoRNAs, which are clearly distinguished by conserved sequence motifs and the type of modification that they govern. The box H/ACA snoRNAs are responsible for targeting pseudouridylation sites and the box C/D snoRNAs for directing 2’-O-methylation of ribonucleotides. A subclass that localize to the Cajal bodies, termed scaRNAs, are responsible for methylation and pseudouridylation of snRNAs. In addition an amazing diversity of non-canonical functions of individual snoRNAs arose. The modification patterns in rRNAs and snRNAs are retained during evolution making it even possible to project them from yeast onto human. The stringent conservation of modification sites and the slow evolution of rRNAs and snRNAs contradicts the rapid evolution of snoRNA sequences. Recent studies that incorporate high-throughput sequencing experiments still identify undetected snoRNAs even in well studied organisms as human. The snoRNAbase, which has been the standard database for human snoRNAs has not been updated ince 2006 and misses these new data. Along with the lack of a centralized data collection across species, which incorporates also snoRNA class specific characteristics the need to integrate distributed data from literature and databases into a comprehensive snoRNA set arose. Although several snoRNA studies included pro forma target predictions in individual species and more and more studies focus on non-canonical functions of subclasses a systematic survey on the guiding function and especially functional homologies of snoRNAs was not available. To establish a sound set of snoRNAs a computational snoRNA annotation pipeline, named snoStrip that identifies homologous snoRNAs in related species was employed. For large scale investigation of the snoRNA function, state-of-the-art target pedictions were performed with our software RNAsnoop and PLEXY. Further, a new measure the Interaction Conservation Index (ICI) was developed to evaluate the conservation of snoRNA function. The snoStrip pipeline was applied to vertebrate species, where the genome sequence has been available. In addition, it was used in several ncRNA annotation studies (48 avian, spotted gar) of newly assembled genomes to contribute the snoRNA genes. Detailed target analysis of the new vertebrate snoRNA set revealed that in general functions of homologous snoRNAs are evolutionarily stable, thus, members of the same snoRNA family guide equivalent modifications. The conservation of snoRNA sequences is high at target binding regions while the remaining sequence varies significantly. In addition to elucidating principles of correlated evolution it was possible, with the help of the ICI measure, to assign functions to previously orphan snoRNAs and to associate snoRNAs as partners to known but so far unexplained chemical modifications. As further pattern redundant guiding became apparent. For many modification sites more than one snoRNA encodes the appropriate antisense element (ASE), which could ensure constant modification through snoRNAs that have different expression patterns. Furthermore, predictions of snoRNA functions in conjunction with sequence conservation could identify distant homologies. Due to the high overall entropy of snoRNA sequences, such relationships are hard to detect by means of sequence homology search methods alone. The snoRNA interaction network was further expanded through novel snoRNAs that were detected in data from high-throughput experiments in human and mouse. Through subsequent target analysis the new snoRNAs could immediately explain known modifications that had no appropriate snoRNA guide assigned before. In a further study a full catalog of expressed snoRNAs in human was provided. Beside canonical snoRNAs also recent findings like AluACAs, sno-lncRNAs and extraordinary short SNORD-like transcripts were taken into account. Again the target analysis workflow identified undetected connections between snoRNA guides and modifications. Especially some species/clade specific interactions of SNORD-like genes emerged that seem to act as bona fide snoRNA guides for rRNA and snRNA modifications. For all high confident new snoRNA genes identified during this work official gene names were requested from the HUGO Gene Nomenclature Committee (HGNC) avoiding further naming confusion. info:eu-repo/classification/ddc/000 ddc:000 snoRNA, Bioinformatik, ncRNA
278	Taxonomická revize rodu Anisus v České republice (Mollusca: Planorbidae) / Taxonomic revision of the genera Anisus in the Czech Republic (Mollusca: Planorbidae) Zavoral, Tomáš January 2010 (has links) The aim of this work is to critically review the anatomical and morphological characters being currently used in the determination of Central European species of the genus Anisus and to confront them with molecular characters. For the molecular analysis mitochondrial genes for 16S rRNA and cytochrome c oxidase - subunit I (COI) were used. DNA analysis showed that known species occuring in the Czech Republic form well distinguishable genetic lines. Subsequent revisions of the anatomical characters of these lines have proven that these characters are due to their variability not suitable for determination, especially for the differentiating of the species A. spirorbis and A. leucostoma. The conchological characters have proven more suitable, especially the ratio of the size of the last and penultimate whorl. With the help of this character, we can safely determine a population within which there are transitional forms in other morphological and anatomical characters.
279	Analysis of Biofilm Communities in Breweries Timke, Markus 20 January 2005 (has links) The main objective of this study was the characterization of surface associated microbial communities in breweries. In addition, the beer-spoiling potential of isolated strains and biofilm samples was investigated. Some studies reported the identity of cultivatable organisms from industrial plants. However, there were no data available about the composition of biofilm communities from these habitats for cultivation-independent techniques. Consequently, the fatty acid methyl esters (FAMEs) analysis, the fluorescence in situ hybridization (FISH) and the construction and investigation of 16S rRNA gene clone libraries were applied to reveal the structure of these communities. All of these methods have different advantages and therefore, they complement each other to get a more reliable picture of the biofilm communities. The cultivation method was included in this study because it enables a verification of results from other studies. Furthermore, the obtained strains are genuine brewery isolates and can be used for physiological tests. Isolates were obtained from seven different sample sites (Chapter 1 and 5). They were identified and affiliated to 25 different genera. Some of these strains were inoculated in beer but none of them was able to grow in it (Chapter 1 and 5). However, these strains can still be harmful for the industry, e.g. if they are able to form biofilms. This aspect was investigated by analyzing the potential of the isolates to produce acyl-homoserine lactones (AHLs) (Chapter 6). These quorum sensing mediating molecules are involved in the maturation process of biofilms. Indeed, some strains were found to secrete these autoinducer molecules, they mainly belonged to the genus Pseudomonas. An abundant proportion among the isolates was constituted by members of the Enterobacteriaceae (Chapter 7). In the beginning of this study, there was a minor suspicion concerning their beer-spoiling potential. Indeed, all isolated Enterobacteriaceae were found to be able to multiply in non-alcoholic beer under access of oxygen but they represented no risk for filled beer. The beer-spoiling potential of biofilm communities was investigated by inoculating them in beer (Chapter 3). These enrichments allowed the detection of minor proportions of beer-spoiling organisms. About 25% of the biofilms contained microorganisms which were able to multiply in beer with 4.8% of ethanol (v/v). The absence of anaerobic beer-spoiling bacteria in most of the biofilms was confirmed by using specific FISH probes for Pectinatus and Megasphaera cells (Chapter 9). However, Pectinatus cells constituted one of the most abundant groups in two biofilm communities. These samples clearly demonstrated that brewery biofilms can become hazardous for the quality of the product. The acetic acid bacteria were supposed to be abundant brewery biofilm organisms. This was not confirmed by any method used (Chapter 8). Instead, FISH signals were found for many other taxa in considerable proportions, e.g. communities from the conveyors consisted of members of the Eukarya, Archaea, Alpha-, Beta-, Gammaproteobacteria, Cytophaga-Flavobacteria, Planctomycetales, Actinobacteria and Firmicutes (Chapter 1). Such diverse communities were also evidenced for three other biofilms analyzed by FISH (Chapter 2 and 9). Whereas the FISH technique allows the specific detection of single cells, the FAME analysis targets all organisms present, except the Archaea. The fatty acid profiles of 78 biofilms indicated significant differences between the communities, even between those which were exposed to similar conditions. In addition, repeated sampling of identical sites revealed a temporal variability of the microbial communities (Chapter 3). Characteristical fatty acids of beer-spoiling bacteria were almost absent. Typical fatty acids of Eukarya dominated nearly half of all biofilms. The high proportions of Eukarya in some biofilms was not confirmed, as these samples were also investigated by FISH. This divergence was found to be due to the higher biomass of eukaryotic cells compared to bacterial cells (Chapter 3). As some wild yeast strains were isolated and characterized, they are a potential source of these fatty acids. In contrast to the revealed bacterial diversity, most of the isolated yeasts were assigned to Saccharomyces or Candida spp. (Chapter 4). The Saccharomyces spp. showed a high beer-spoiling potential and many Candida species were able to form biofilms. The construction of 16S rRNA gene clone libraries and the analysis of the clones with amplified ribosomal DNA restriction analysis (ARDRA) was performed with two biofilm communities (Chapter 2). Clones with identical ARDRA patterns were grouped and some representatives were identified by sequencing. These clone sequences were affiliated to 30 different genera, most of which were members of the Alpha- and Gammaproteobacteria and the Bacteroidetes. In addition, some clone sequences were assigned to uncultured organisms. Despite of the presence of 53 and 59 different ARDRA patterns in the two clone libraries, respectively, they had only four patterns in common. This result underlined the differences in the microbial composition of these communities. In conclusion, breweries represent a habitat with high cleaning and disinfecting pressure, which might have selected for a limited number of more resistant or adopted species. Instead, the community structures of biofilms in industrial environments were found to be diverse and variable in their compositions. Biofilms Community structure Food industry Breweries Spoilage FISH FAME 16S rRNA gene Clone libraries Cultivation 32 - Biologie ddc:660
280	Ecology of bacterioplankton specific to the oxygenated hypolimnia of deep freshwater lakes / 大水深淡水湖の有酸素深水層に特有な細菌の生態解明 Okazaki, Yusuke 26 March 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20953号 / 理博第4405号 / 新制\|\|理\|\|1633(附属図書館) / 京都大学大学院理学研究科生物科学専攻 / (主査)教授中野伸一, 教授木庭啓介, 教授中川尚史 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM bacterioplankton oxygenated hypolimnion deep freshwater lake 16S rRNA gene amplicon sequencing 400

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