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AN INTEGRATED INVESTIGATION OF RUMINAL MICROBIAL COMMUNITIES USING 16S rRNA GENE-BASED TECHNIQUESKim, Min Seok 20 October 2011 (has links)
No description available.
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Studies of the host-microbe relationship in aquaculture-raised animalsHines, Ian Samuel 07 April 2022 (has links)
Aquatic animals, such as fish and shellfish, provide important economic and nutritional benefits for human society. Due to overexploitation of natural fish sources through traditional wild-caught fisheries, aquaculture (generally described as fish farming or culturing) has grown into an economically important industry. A major focus area for the aquaculture field is related to sustainability by ensuring the health and welfare of the aquatic animals. Communities of microorganisms inhabiting the various niches of a given host comprise its microbiome and provide several key health benefits. The microbiome impacts nutrient acquisition, gut homeostasis, protection against pathogens, and immune system modulation. Therefore, much attention has been placed on studying how various culturing conditions and host factors impact the microbiomes of aquatic animals.
Here, multiple studies were conducted to elucidate the impacts of various parameters on the microbiomes of rainbow trout, steelhead trout, and Nile tilapia, including dietary supplementation, administration of probiotics and animal age. Though there is a significant correlation between the diet fed to fish and their microbiome communities, small dietary changes such as the inclusion of a dried and lysed yeast product, acting as a protein source alternative to unsustainable fishmeal did not significantly alter the intestinal adherent microbiome of rainbow trout. Moreover, an optimal percentage of yeast replacement that did not negatively impact weight gain for the aquaculture-raised fish was identified, suggesting its efficacy for the industry. Similarly, the intestinal adherent microbiomes of steelhead trout were not significantly altered by diet supplementation with a Bacillus subtilis probiotic. The total microbiome of steelhead trout (mucosa combined with digesta) was instead significantly changed when they were only fed the probiotic additive at an early stage of intestinal development. This change in the microbiome of steelhead trout correlated with a significant increase in weight gain compared to fish only fed the probiotic during later stages of intestinal development. These findings also corroborate previous observations wherein the intestinal microbiome of fish varies during their developmental stages but then stabilizes over time.
Determining the core set of bacteria present in fish microbiomes, independent of treatment variables, is another important factor when considering attempts to manipulate the microbiome. To that end, a literature review was conducted in which the phyla Firmicutes, Proteobacteria and, to a lesser extent, Actinobacteria, Bacteroides, and Tenericutes were identified as likely members of the rainbow trout core microbiome. Bacterial families identified as part of the core phyla included Lactobacilliaceae that are commonly used as probiotics and Mycoplasmataceae that lack cell walls. Preventing dysbiosis of the rainbow trout microbiomes will be crucial to ensuring the health of the fish hosts and increasing longevity and profitability of the aquaculture industry.
Another important aquaculture-raised species is the Eastern oyster. This animal is critical for the ecological health of the Chesapeake Bay, and it is also an important source of revenue. A significant portion of the revenue flow is the harvest and sale of live oysters for consumption. Unfortunately, consumption of raw or undercooked oysters is the most common route of infection by the human pathogen Vibrio parahaemolyticus (VP) as oysters are a natural reservoir for VP. This bacterium is responsible for a debilitating acute gastroenteritis with potential to cause fatal septicemia. Despite efforts to mitigate infection by this CDC-reportable pathogen, cases continue to increase. The understudied host-microbe relationship between the Eastern oyster and VP has been implicated as a path to research for potential future therapeutics. A novel culturing system for oysters was created using fermentation jars within a BSL-2 ready biosafety cabinet. Using this system, the effect of harvest season was tested against the inoculation efficiency of VP. It was found that higher native Vibrio levels within the oysters were present during the summer compared to the winter. Moreover, addition of the bacteriostatic antibiotic chloramphenicol (Cm) enabled a higher inoculation efficiency by VP during both the summer and winter compared to oysters not exposed to the antibiotic. During the winter, exposure to Cm led to the highest inoculation efficiency (~100%). These findings confirm the importance of the existing microbial communities against exogenous inoculation. Therefore, a year-long study was conducted to investigate the microbiome of oysters during each season. This pan-microbiome study identified a significant impact of harvest season on the microbiome structure. An increased diversity, including higher levels of Cyanobacteriaceae, was observed during the summer. Whereas an increase in Arcobacteriaceae was observed during the winter. Bacteria that persisted throughout the year included Mycoplamataceae and Spirochaeteacae; these families may represent potential members of the Eastern oyster core microbiome.
Further work is needed to study the localization patterns of VP within oysters. Such work includes further optimization of immunohistochemistry (IHC) and intracellular colonization assay methods under development here. Collectively, studies of the oyster-microbe interactions will help improve aquaculture methods and identify mitigation targets to reduce VP-related clinical infections. / Doctor of Philosophy / Fish and shellfish provide important economic and nutritional benefits for human society across the globe. Unfortunately, over-fishing of traditional sources of fish and shellfish has led to a reduced supply for world markets, even as the human population increases. Aquaculture, or fish farming, has been around for centuries, but its role in society has significantly increased in the past 50 years. It currently provides about half of fish and other aquatic products on the market today. To better maintain and increase the sustainability and profitability of this industry, more focus is being placed on the health of the fish. The microbiome is the collection of communities of microorganisms, including bacteria, fungi, and archaea, that inhabit various environments including animal hosts. The majority of this dissertation focuses on the impact of factors like diet and age on the microbiomes of aquaculture-raised animals, especially fish. Dietary changes such as the addition of dried yeast-products had a significant impact on fish health but not on the microbiome communities. However, a common probiotic, Bacillus subtilis, did significantly increase not only the growth rate of trout but it also significantly altered the total intestinal microbiome found in the feces and the intestinal mucosal layer. Moreover, it was found that early exposure of the animals to the probiotic had enhanced benefits even though the microbiome appeared to stabilize over time as the fish developed. Maintaining or improving the microbiomes of fish, paying close attention to the microbes that exist as part of a core group of bacteria always present, is vital to ensuring fish health and understanding vertebrate host-microbe relationships. Thus, an analysis of the core microbiome of trout was performed.
The final set of projects within this dissertation focused on the relationship between the Eastern oyster, a mollusk native to the Chesapeake Bay, and the bacterial human pathogen Vibrio parahaemolyticus (VP). VP is the leading cause of seafood-borne acute gastroenteritis worldwide, and efforts are needed to mitigate the increasing rate of human infections. Therefore, a simple system using fermentation jars within the laboratory biosafety cabinet was designed to enable safe culture of oysters that were exposed to VP under experimentally controlled conditions. Oysters harvested during the summer naturally harbored higher amounts of native Vibrio organisms in contrast to the winter oysters that harbored much lower levels. A separate microbiome analysis revealed large shifts in the oyster microbiome between summer and winter, although some microbes were continually present. The lower levels of existing Vibrio species detected in winter oysters may have allowed for the higher efficiency of inoculation of winter animals by VP. In fact, these winter animals had Vibrio microbiomes that were completely dominated by the inoculated strain which will enable future work to observe the pattern by which VP localizes, or colonizes, the oysters. Ultimately, these efforts may lead to the development of future disease mitigation strategies against VP.
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Analysis Of The Microbiome Associated With Peri-implantitis In Moroccan PatientsPangam, Tanvi Shyamsundar 05 1900 (has links)
Little is known about the microbiome composition associated with peri-implantitis in developing countries. A recent study found a high prevalence of peri-implantitis in a group of Moroccan patients. We hypothesized that a distinct microbiome may be associated with this disease in Moroccan subjects, and the aim of this study was to investigate the composition of the microbiome in peri-implantitis sites and sites without peri-implantitis. The study material consisted of 35 dental patients with dental implants: 22 of these had peri-implantitis, and 13 were without peri-implantitis. Among these subjects, dental plaque samples were collected from 50 peri-implant sites as follows: in the peri-implantitis subjects, 22 samples were from peri-implantitis sites (peri-implantitis patient diseased sites) and 15 samples from sites without peri-implantitis (peri-implantitis patient control sites); and 13 samples from implants from subjects without peri-implantitis (non-peri-implantitis patient control sites). The samples were sequenced for the V1-V3 region of the 16S rRNA gene, and the resultant sequences were classified at the species level using a previously described Blastn-based algorithm. Downstream analysis of the data was performed with Phyloseq, Microbiome, Vegan and MaAsLin packages in R, using a false discovery rate (FDR) cutoff of 0.25. Fifty-six species and 30 genera were identified per sample on average. No significant differences were found between the groups in terms of species richness and alpha diversity. However, beta diversity analysis by PERMANOVA (Adonis) identified a statistically significant difference (FDR=0.024) between the peri-implantitis patient diseased sites and non-peri-implantitis patient control sites. Compared to non-peri-implantitis patient control sites, diseased but not control sites in patients with peri-implantitis showed significantly higher levels of Peptostreptococcus stomatitis and Mogibacterium spp. However, both diseased and control sites in patients with peri-implantitis had higher abundance of Olsenella uli, Atopobium spp. and Actinomyces spp. compared to non-peri-implantitis patient control sites. No differences at FDR ≤ 0.25 were found between diseased and control sites in patients with peri-implantitis, but Porphyromonas endodontalis tended to be elevated in diseased sites while Veillonella parvula tended to increase in control sites. These findings suggest a distinct dysbiotic microbiome is associated with peri-implantitis sites in Moroccan patients. / Oral Biology
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The role of ribosome biogenesis in proneural-to-mesenchymal transition in glioblastoma multiformeFahim, Dipita January 2021 (has links)
No description available.
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Caracterização da microbiota vaginal, intestinal e oral durante o período gestacional / Vaginal, gut and oral microbiota characterization during pregnancySparvoli, Luiz Gustavo 27 May 2019 (has links)
A simbiose desenvolvida entre seres vivos e microrganismos desempenha um importante papel na relação saúde-doença do hospedeiro. Neste sentido, o corpo humano abriga uma grande e diversa comunidade de microrganismos, sendo as mucosas vaginal, intestinal e oral as principais superfícies mucosas do corpo feminino que abrigam as comunidades bacterianas de fundamental importância para a mulher. Estes microrganismos atuam no desenvolvimento e modulação do sistema imune, na manutenção e otimização de vias metabólicas e competem por sítios de colonização, prevenindo que microrganismos patogênicos estabeleçam colonização. A composição da microbiota feminina varia com a idade, pH, secreção hormonal, ciclo menstrual, uso de anticoncepcional e atividade sexual. O presente estudo buscou caracterizar a composição da microbiota do corpo feminino durante o período gestacional, comparando os achados entre gestantes e não gestantes saudáveis, através de técnicas de biologia molecular. Foram selecionadas 60 mulheres saudáveis para o estudo e coletadas amostras de secreção vaginal, fezes e swab oral de cada participante. O DNA das amostras foi extraído e submetido à sequenciamento do gene 16S rRNA e quantificado através da técnica de PCR em tempo real. Das participantes selecionadas, 42 eram gestantes e 18 eram mulheres não gestantes em idade reprodutiva. Observamos que a quantificação total de bactérias na vagina não apresentou diferenças entre gestantes e não gestantes. Houve aumento na abundância de Lactobacillus no sítio vaginal, bactérias produtoras de butirato na microbiota intestinal e Streptococcus na microbiota oral de mulheres grávidas quando comparadas com mulheres não gestantes. Além disso, observamos que a composição e a disposição dos gêneros encontrados sofrem uma modificação, tal como aumento de gêneros relacionados com a manutenção da homeostase no grupo de mulheres gestantes. O período gestacional influencia positivamente na composição da microbiota, garantindo assim a prevalência de gêneros bacterianos responsáveis pela manutenção das condições ideais para o desenvolvimento da gestação saudável. / The symbiosis developed between living organisms and microorganisms plays an important role in the health-disease relationship of the host. In this sense, the human body harbor a large and diverse community of microorganisms, the vaginal, intestinal and oral mucosa are the main mucosal surfaces of the female body that harbor bacterial communities of fundamental importance for women. These microorganisms act in the development and modulation of the immune system, in the maintenance and optimization of metabolic pathways and compete for colonization sites, preventing pathogenic microorganisms from establishing colonization. The composition of the female microbiota varies with age, pH, hormonal secretion, menstrual cycle, contraceptive use and sexual activity. The present study aimed to characterize the microbiota composition of the female body during the gestational period, comparing the findings between healthy and non - pregnant women through molecular biology techniques. Sixty healthy women were selected for the study and samples of vaginal secretion, stool and oral swab from each participant were collected. The DNA of the samples was extracted and submitted to the 16S rRNA gene sequencing and quantified by the real-time PCR technique. Were select, 42 were pregnant and 18 were non-pregnant women of reproductive age. We observed that the total quantification of bacteria in the vaginal samples did not present differences between pregnant and non-pregnant women. There was an increase in the abundance of Lactobacillus in the vaginal site, butyrate producing bacteria in the intestinal microbiota and Streptococcus in the oral microbiota of pregnant women when compared to nonpregnant women. In addition, we observed that the composition and arrangement of the genera found undergo a modification, such as an increase in genera related to the maintenance of homeostasis in the group of pregnant women. The pregnancy influences the composition of the microbiota, thus ensuring the prevalence of bacterial genera responsible for the maintenance of the ideal conditions for the development of healthy pregnancy.
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Caracterização funcional da proteína Nop8p de Saccharomyces cerevisiae / Functional characterization of the Saccharomyces cerevisiae nucleolar protein Nop8pSantos, Márcia Cristina Teixeira dos 21 October 2011 (has links)
A proteína nucleolar Nop8p de levedura foi identificada inicialmente através de sua interação com Nip7p e está envolvida na formação da subunidade ribossomal 60S. A depleção de Nop8p em células de levedura leva à degradação prematura dos rRNAs, porém o mecanismo bioquímico responsável por este fenótipo ainda não é conhecido. Neste trabalho, mostramos que a interação de Nop8p com o rRNA 5.8S se dá através de sua região amino-terminal, enquanto que a porção carboxi-terminal é responsável pela interação com Nip7p e complementa parcialmente o defeito no crescimento observado na cepa mutante condicional Δnop8/GAL::NOP8. Além disso, Nop8p media a associação de Nip7p com as partículas pré-ribossomais. Nop8p também interage com a subunidade Rrp6p do exossomo e inibe a atividade do complexo in vitro, sugerindo que a diminuição dos níveis da subunidade ribosomal 60S detectada após a depleção de Nop8p pode ser resultado da degradação dos pré-rRNAs pelo exossomo. Estes resultados indicam que Nop8p pode regular a atividade do exossomo durante o processamento do pré-rRNA. / The yeast nucleolar protein Nop8p has previously been shown to interact with Nip7p and to be required for 60S ribosomal subunit formation. Although depletion of Nop8p in yeast cells leads to premature degradation of rRNAs, the biochemical mechanism responsible for this phenotype is still not known. In this work, we show that the Nop8p amino-terminal region mediates interaction with the 5.8S rRNA, while its carboxylterminal portion interacts with Nip7p and can partially complement the growth defect of the conditional mutant strain Δnop8/GAL::NOP8. Interestingly, Nop8p mediates the association of Nip7p to pre-ribosomal particles. Nop8p also interacts with the exosome subunit Rrp6p and inhibits the complex activity in vitro, suggesting that the decrease in 60S ribosomal subunit levels detected upon depletion of Nop8p may result from degradation of pre-rRNAs by the exosome. These results strongly indicate that Nop8p may control exosome function during pre-rRNA processing.
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Microbial community profiling of human gastrointestinal cancers / Investigação de perfis microbianos humanos e sua relação com o câncer gastro-intestinalThomas, Andrew Maltez 12 December 2018 (has links)
The human microbiome - defined as the microbial communities that live in and on our bodies - is emerging as a key factor in human diseases. The expanding research field that investigates the role of the microbiome on human cancer development, termed oncobiome, has led to important discoveries such as the role of Fusobacterium nucleatum in colorectal cancer carcinogenesis and tumor progression. Motivated by these discoveries, this thesis studied the oncobiome from different perspectives, investigating whether alterations to microbial profiles were associated with disease status or an adverse response to treatment. We used both biopsy tissue samples and 16S rRNA amplicon sequencing (N = 36), as well as privately and publicly available fecal whole metagenomes (N = 764) to investigate microbiome-colorectal cancer (CRC) associations. We observed significant increases in species richness in CRC, regardless of sample type or methodology, which was partially due to expansions of species typically from the oral cavity, as well as an overabundance of specific taxa such as Bacteroides fragilis, Fusobacterium, Desulfovibrio and Bilophila in CRC. Functional potential analysis of CRC metagenomes revealed that the choline trimethylamine-lyase (cutC) gene was over-abundant in CRC, with the strength of association dependent on four identified sequence variants, pointing at a novel potential mechanism of CRC carcinogenesis. Predictive microbiome signatures trained on the combination of multiple datasets showed very high and consistent performances on distinct cohorts (average AUC 0.83, minimum 0.81). To investigate the microbiomes role in response to treatment, we profiled microbial communities of gastric wash samples in gastric cancer patients (N = 36) before and after neoadjuvant chemotherapy through 16S rRNA amplicon sequencing. Gastric wash microbial communities presented remarkably high inter-individual variation, with significant decreases in richness and phylogenetic diversity after treatment and associations with pH, pathological response and sample collection. The most abundant genera found in patients before or after chemotherapy treatment included Streptococcus, Prevotella, Rothia and Veillonella. Despite limitations inherent to differing experimental choices, this thesis provides microbiome signatures that can be the basis for clinical prognostic tests and hypothesis-driven mechanistic studies, as well as supporting the role of the human oral microbiome in whole-body diseases. / O microbioma humano - definido como as comunidades microbianas que vivem sobre e dentro do corpo humano - está se tornando um fator cada vez mais importante em doenças humanas. O campo de estudo que investiga o papel do microbioma no desenvolvimento do câncer humano, denominado oncobioma, está crescendo e já levou a importantes descobertas como o papel da espécie Fusobacterium nucleatum na carcinogênese e progressão tumoral de tumores colorretais. Motivado por estas descobertas, esta tese de doutorado analisou o oncobioma por diferentes perspectivas, investigando se alterações nos perfis microbianos estavam associados à presença da doença ou a uma resposta adversa ao tratamento. Usamos tanto amostras de tecidos de biópsias e o sequenciamento do gene 16S rRNA (N = 36), quanto metagenomas fecais públicos e privados (N = 764), para investigar associações entre o microbioma e o câncer colorretal (CCR). Observamos um aumento significativo da riqueza microbiana no CCR, independentemente do tipo da amostra ou metodologia, que era em parte, devido ao aumento de espécies tipicamente presentes na cavidade oral. Observamos também um aumento da abundância de táxons específicos no CCR, que incluíam Bacteroides fragilis, Fusobacterium, Desulfovibrio e Bilophila. Analisando o potencial funcional dos metagenomas, encontramos um aumento significativo da enzima liase colina trimetilamina (cutC) no CCR, cuja associação era dependente de 4 variantes de sequência, demonstrando ser um possível novo mecanismo de carcinogênese no CCR. Assinaturas preditivas do microbioma treinadas na combinação dos estudos demonstraram ser altamente preditivas e consistentes nos diferentes estudos (média de AUC 0.83, mínimo de 0.81). Para investigar o possível papel do microbioma na resposta ao tratamento, analisamos os perfis microbianos do suco gástrico de pacientes com câncer gástrico (N = 36) antes e depois do tratamento quimioterápico neoadjuvante. As comunidades microbianas apresentaram uma variabilidade inter-individual notavelmente grande, com diminuições significativas na riqueza e diversidade filogenética pós tratamento, além de estarem associadas principalmente ao pH, mas também à resposta patológica e ao tempo da coleta. Os gêneros mais abundantes encontrados nos pacientes antes ou depois da quimioterapia incluíam Streptococcus, Prevotella, Rothia e Veillonella. Apesar das limitações inerentes às escolhas experimentais, esta tese proporciona assinaturas do microbioma que podem servir de base para testes clínicos prognósticos e estudos mecanísticos, além de dar mais suporte ao papel do microbioma oral em doenças humanas.
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Microbial community profiling of human gastrointestinal cancers / Investigação de perfis microbianos humanos e sua relação com o câncer gastro-intestinalAndrew Maltez Thomas 12 December 2018 (has links)
The human microbiome - defined as the microbial communities that live in and on our bodies - is emerging as a key factor in human diseases. The expanding research field that investigates the role of the microbiome on human cancer development, termed oncobiome, has led to important discoveries such as the role of Fusobacterium nucleatum in colorectal cancer carcinogenesis and tumor progression. Motivated by these discoveries, this thesis studied the oncobiome from different perspectives, investigating whether alterations to microbial profiles were associated with disease status or an adverse response to treatment. We used both biopsy tissue samples and 16S rRNA amplicon sequencing (N = 36), as well as privately and publicly available fecal whole metagenomes (N = 764) to investigate microbiome-colorectal cancer (CRC) associations. We observed significant increases in species richness in CRC, regardless of sample type or methodology, which was partially due to expansions of species typically from the oral cavity, as well as an overabundance of specific taxa such as Bacteroides fragilis, Fusobacterium, Desulfovibrio and Bilophila in CRC. Functional potential analysis of CRC metagenomes revealed that the choline trimethylamine-lyase (cutC) gene was over-abundant in CRC, with the strength of association dependent on four identified sequence variants, pointing at a novel potential mechanism of CRC carcinogenesis. Predictive microbiome signatures trained on the combination of multiple datasets showed very high and consistent performances on distinct cohorts (average AUC 0.83, minimum 0.81). To investigate the microbiomes role in response to treatment, we profiled microbial communities of gastric wash samples in gastric cancer patients (N = 36) before and after neoadjuvant chemotherapy through 16S rRNA amplicon sequencing. Gastric wash microbial communities presented remarkably high inter-individual variation, with significant decreases in richness and phylogenetic diversity after treatment and associations with pH, pathological response and sample collection. The most abundant genera found in patients before or after chemotherapy treatment included Streptococcus, Prevotella, Rothia and Veillonella. Despite limitations inherent to differing experimental choices, this thesis provides microbiome signatures that can be the basis for clinical prognostic tests and hypothesis-driven mechanistic studies, as well as supporting the role of the human oral microbiome in whole-body diseases. / O microbioma humano - definido como as comunidades microbianas que vivem sobre e dentro do corpo humano - está se tornando um fator cada vez mais importante em doenças humanas. O campo de estudo que investiga o papel do microbioma no desenvolvimento do câncer humano, denominado oncobioma, está crescendo e já levou a importantes descobertas como o papel da espécie Fusobacterium nucleatum na carcinogênese e progressão tumoral de tumores colorretais. Motivado por estas descobertas, esta tese de doutorado analisou o oncobioma por diferentes perspectivas, investigando se alterações nos perfis microbianos estavam associados à presença da doença ou a uma resposta adversa ao tratamento. Usamos tanto amostras de tecidos de biópsias e o sequenciamento do gene 16S rRNA (N = 36), quanto metagenomas fecais públicos e privados (N = 764), para investigar associações entre o microbioma e o câncer colorretal (CCR). Observamos um aumento significativo da riqueza microbiana no CCR, independentemente do tipo da amostra ou metodologia, que era em parte, devido ao aumento de espécies tipicamente presentes na cavidade oral. Observamos também um aumento da abundância de táxons específicos no CCR, que incluíam Bacteroides fragilis, Fusobacterium, Desulfovibrio e Bilophila. Analisando o potencial funcional dos metagenomas, encontramos um aumento significativo da enzima liase colina trimetilamina (cutC) no CCR, cuja associação era dependente de 4 variantes de sequência, demonstrando ser um possível novo mecanismo de carcinogênese no CCR. Assinaturas preditivas do microbioma treinadas na combinação dos estudos demonstraram ser altamente preditivas e consistentes nos diferentes estudos (média de AUC 0.83, mínimo de 0.81). Para investigar o possível papel do microbioma na resposta ao tratamento, analisamos os perfis microbianos do suco gástrico de pacientes com câncer gástrico (N = 36) antes e depois do tratamento quimioterápico neoadjuvante. As comunidades microbianas apresentaram uma variabilidade inter-individual notavelmente grande, com diminuições significativas na riqueza e diversidade filogenética pós tratamento, além de estarem associadas principalmente ao pH, mas também à resposta patológica e ao tempo da coleta. Os gêneros mais abundantes encontrados nos pacientes antes ou depois da quimioterapia incluíam Streptococcus, Prevotella, Rothia e Veillonella. Apesar das limitações inerentes às escolhas experimentais, esta tese proporciona assinaturas do microbioma que podem servir de base para testes clínicos prognósticos e estudos mecanísticos, além de dar mais suporte ao papel do microbioma oral em doenças humanas.
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Detecção molecular da viabilidade de Mycobacterium leprae em animais silvestres e possível associação na manutenção da transmissão da doença em região hiperendêmica da Amazônia MeridionalValois, Élderson Mariano de Souza January 2019 (has links)
Orientador: Ida Maria Foschiani Dias Batista / Resumo: As bactérias Mycobacterium leprae e mais recentemente Mycobacterium lepromatosis são os agentes etiológicos da hanseníase que causam sérios danos neuromotores e podem evoluir para incapacidades irreversíveis. A incidência de casos novos de hanseníase em todo o mundo foi de 2.77/100 mil habitantes. No Brasil, em 2016, foram 2.665 casos somente do Estado de Mato Grosso na Amazônia Meridional, esses valores representam 88,9/100 mil habitantes no índice geral de detecção para a hanseníase. Foram capturados animais silvestres naturalmente infectados por Mycobacterium leprae e Mycobacterium lepromatosis das Ordens Cingulata, Didelphimorphia, e Rodentia, todos estavam em fragmentos florestais próximos a grupos humanos. Um total 327 amostras de biópsias foram avaliados, dos quais recuperou-se 254, sendo 187 amostras de orelhas, 77 baço, e 63 fígado de 187 animais silvestres das Ordens Cingulata, Rodentia e Didelphimorphia. Após extraídos DNA e RNA de baço, fígado, e orelha, foram avaliados por qPCR para os genes RLEP (enumerador) e 16S rRNA (viabilidade). Três gêneros apresentaram positividade nas orelhas para ambos os genes RLEP e 16S rRNA, sendo 18% para Dasypus (Cingulata), 60% para Proechimys (Rodentia) e 64% para Marmosa (Didelphimorphia). Enquanto que nos testes utilizando PCR multiplex obteve-se 12 amostras positivas para o gene henM referente a Mycobacterium lepromatosis, dos 13 gêneros avaliados apenas Proechimys e Marmosa apresentaram presença para o bacilo. A presença freq... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Bacteria Mycobacterium leprae and more recently Mycobacterium lepromatosis are the etiological agents of leprosy that cause serious neuromotor damage and can progress to irreversible impairments. The incidence of new cases of leprosy worldwide was 2.77 / 100 thousand inhabitants. In Brazil, in 2016, there were 2,665 cases of the State of Mato Grosso alone in the Southern Amazon, which represent 88.9 / 100 thousand inhabitants in the general detection index for leprosy. Wild animals naturally infected with Mycobacterium leprae and Mycobacterium lepromatosis from the Cingulata, Didelphimorphia, and Rodentia orders were all captured in forest fragments close to human groups. A total of 327 biopsy specimens were evaluated, of which 254 were recovered, being 187 samples of ears, 77 spleen, and 63 liver of 187 wild animals of the Orders Cingulata, Rodentia and Didelphimorphia. After extracting DNA and RNA from spleen, liver, and ear, they were assessed by qPCR for the RLEP (enumerator) and 16S rRNA (viability) genes. Three genera presented positivity in the ears for both RLEP and 16S rRNA genes, 18% for Dasypus (Cingulata), 60% for Proechimys (Rodentia) and 64% for Marmosa (Didelphimorphia). While in the tests using multiplex PCR, 12 samples were positive for the henM gene for Mycobacterium lepromatosis, of the 13 genera evaluated only Proechimys and Marmosa showed presence for the bacillus. The frequent presence of man in the forest fragments where M. leprae or Mycobacterium lepro... (Complete abstract click electronic access below) / Doutor
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Variações das estruturas das comunidades de bactérias e fungos em Espodossolos sob diferentes regimes de drenagem / Changes in the bacterial and fungal communities structures in Podzols under distinct drainage regimesMatos, Elisa Rabelo 12 March 2015 (has links)
Os Espodossolos são os solos de maior ocorrência na planície costeira do litoral do Estado de São Paulo e são caracterizados pela presença de um horizonte espódico (Bh ou Bhm). Poucas são as informações relacionadas à gênese destes solos em regiões tropicais, assim como da composição química da matéria orgânica (MO) nos mesmos e da influência dos micro-organismos em sua formação. É possível que micro-organismos envolvidos na degradação seletiva da MO sejam importantes para a gênese de Espodossolos, como observado anteriormente em Espodossolos de Bertioga e Ilha Comprida. O primeiro estudo teve como objetivo avaliar a variação espacial da estrutura das comunidades e a abundância de bactérias e fungos em três perfis de Espodossolos sob drenagem intermediária, nos diferentes horizontes e nas manchas brancas através de PCR-DGGE e quantificação por qPCR dos genes rRNA 16S de bactérias e ITS de fungos. O segundo estudo teve como objetivo avaliar a variabilidade espacial das comunidades de bactérias nos horizontes e nas manchas brancas de Espodossolos sob três regimes de drenagem, e determinar se a diversidade genética e estrutura das comunidades de bactérias estão associadas à composição molecular da MO nessas regiões, através do sequenciamento massivo da região V4 do gene do rRNA 16S de bactéria e análise de compostos orgânicos por pirólise-GC/MS. As estruturas das comunidades bacterianas, determinada por PCR-DGGE, nos diferentes horizontes de cada perfil foram mais similares entre si do que nos mesmos horizontes em diferentes perfis de Espodossolos. A estrutura das comunidades fungos não apresentou diferenças significativas, independente da localidade do perfil e profundidade dos horizontes. A abundância de cópias do gene rRNA 16S e região ITS, determinada por qPCR, foi maior no horizonte A do que no horizonte Bh, para os três perfis de Espodossolos estudados. Apesar de não haver diferenças significativas na estrutura das comunidades, grupos específicos de bactérias e fungos podem estar envolvidos na degradação seletiva da matéria orgânica nos diferentes horizontes, bem como nas manchas brancas e suas adjacências. A estrutura das comunidades de bactérias, determinada por sequenciamento massivo do gene rRNA 16S, nos horizontes mais superficiais (A e AE) foi distinta daquela observada nos horizontes mais profundos (EB, BE e Bh). Porém, as comunidades bacterianas nas manchas brancas e suas regiões adjacentes foram mais similares entre si, do que em relação as comunidades bacterianas nos horizontes, em todos os perfis analisados, independente do regime de drenagem. Acidobacteria, Proteobacteria e Actinobacteria foram os filos mais abundantes nos solos estudados. Actinobacteria e Alphaproteobacteria mostraram associação positiva com moléculas orgânicas derivadas da pirólise da lignina, as quais foram mais abundantes nos horizontes superficiais (A e AE), enquanto Acidobacteria mostrou associação positiva com compostos mais recalcitrantes encontrados em horizontes mais profundos (Bh), sugerindo um papel específico e diferenciado de cada grupo bacteriano na degradação de compostos orgânicos específicos. Os resultados desses estudos sugerem que grupos bacterianos específicos podem estar envolvidos na gênese de Espodossolos através da degradação de compostos orgânicos específicos em diferentes horizontes. / Podzols are highly frequent soils in the coastal plains of the São Paulo State, and are characterized by the presence of a spodic horizon (Bh or Bhm). Studies on the pedogenetic processes in Podzols of tropical regions are scarce, as well as studies on the molecular characterization of their organic matter (OM) and on the microorganisms involved in their genesis. It is possible that microorganisms involved in the selective degradation of the soil OM are important for the genesis of Podzols, as previously observed in Podzols of Bertioga and Ilha Comprida. The aim of the first study was to evaluate the spatial variation of the community structure and abundance of bacterial and fungi in the different horizons, bleached mottles and their immediate vicinity of three Podzol profiles under intermediary drainage regime, using PCR-DGGE and qPCR of the bacterial rRNA 16S gene and fungal ITS region. The aim of the second study was to determine the spatial variability of the bacterial communities in the horizons and bleached mottles of Podzols under three drainage regimes, and whether the bacterial genetic diversity and community structure were associated to the molecular OM composition, using high-throughput sequencing of the V4 region of the bacterial 16S rRNA gene and analyses of organic compounds by pyrolysis GC/MS. The structure of bacterial communities, determined by PCRDGGE, in the different horizons of each soil profile were more similar to each other than in the same horizons of different soil profiles. The fungal community structures did not show significant differences, independent of the soil profile location and horizons depth. Abundance of copies of the bacterial 16S rRNA gene and fungal ITS region, determined by qPCR, was higher in the A horizon than in the Bh horizon, for the three Podzol profiles studied. Even though there were no significant differences in community structures, specific groups of bacteria and fungi may be involved in the selective degradation of organic matter in different horizons, bleached mottles and their immediate vicinity. The bacterial community structures, determined by highthroughput sequencing of the 16S rRNA gene, in the surface horizons (A and AE) were distinct of that in the deeper horizons (EB, BE and Bh). However, the bacterial community structures in the bleached mottles and their immediate vicinity were more similar to each other than to the community structures in the horizons, in all profiles studied, regardless of the drainage regime. Acidobacteria, Proteobacteria and Actinobacteria were the most abundant phyla in the soils studied. Actinobacteria and Alphaproteobacteria showed a positive relationship organic compounds derived from lignin degradation, which were more abundant in the surface horizons (A and AE), whereas Acidobacteria showed a positive relationship with more recalcitrant compounds detected in deeper horizons (Bh), suggesting a specific and distinct roles of each bacterial group in the degradation of specific organic compounds. The results of these studies suggest that specific bacterial groups may be involved in the genesis of Podzols by degrading specific organic compounds in different horizons.
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