935 resultados para Substrats de NaCl
Resumo:
Dissertação para obtenção do Grau de Mestre em Engenharia Biomédica
Resumo:
Dissertação para obtenção do Grau de Mestre em Biotecnologia
Resumo:
J Biol Inorg Chem. 2008 Jun;13(5):779-87. doi: 10.1007/s00775-008-0365-8
Resumo:
J Biol Inorg Chem (2007) 12:691–698 DOI 10.1007/s00775-007-0219-9
Resumo:
Dissertação para obtenção do Grau de Mestre em Engenharia Química e Bioquímica
Resumo:
Dissertação para obtenção do Grau de Mestre em Biotecnologia
Resumo:
Dissertação para obtenção do Grau de Doutor em Qualidade Alimentar
Resumo:
A thesis submitted for the Degree of Master in Medical microbiology
Resumo:
Avaliaram-se 40 amostras de ostras (Crassostrea rhizophorae) servidas in natura em 15 restaurantes da Cidade do Rio de Janeiro, a fim de investigar a presença de Vibrio spp. As amostras de ostras foram analisadas e submetidas a enriquecimento em água peptonada alcalina adicionada de 1 e 3% de NaCl, incubadas a 37°C por 24 horas. Em seguida, os cultivos foram semeados em agar tiossulfato citrato bile sacarose e as colônias suspeitas foram submetidas à caracterização bioquímica. Vibrio parahaemolyticus, Vibrio carchariae, Vibrio alginolyticus e Vibrio vulnificus representaram as principais espécies (> 60%) isoladas a partir das ostras in natura.
Resumo:
Aeromonas spp é reconhecida como patogênica para o homem após o consumo de água e alimentos contaminados. Na presente investigação, foram avaliadas 2.323 amostras de swabs retais de neonatos hospitalizados no Rio de Janeiro objetivando o isolamento de Aeromonas. As amostras foram coletadas e enviadas ao Laboratório de Referência Nacional de Cólera e outras enteroinfecções bacterianas, Instituto Oswaldo Cruz, Fundação Oswaldo Cruz. Os swabs foram submetidos ao enriquecimento em água peptonada alcalina adicionada de 1% de cloreto de sódio (NaCl) e água peptonada alcalina adicionada de 3% de NaCl (37ºC/18-24h) e semeadas em agar seletivo para Pseudomonas aeromonas (Agar GSP). Foram isoladas 56 cepas de Aeromonas assim distribuídas: Aeromonas caviae (42,8%), Aeromonas media (25%), Aeromonas veronii biogrupo sobria (10,7%), Aeromonas hydrophila (9%), Aeromonas veronii biogrupo veronii (5,3%), Aeromonas sobria (1,8%), Aeromonas jandaei (1,8%), Aeromonas schubertii (1,8%) e Aeromonas sp (1,8%). Foi observada resistência a uma ou mais drogas antimicrobianas em 26,8% das cepas. Considerando a relevância de Aeromonas torna-se urgente alertar sobre sua importância para o controle de infecções hospitalares.
Resumo:
A microbiologia preditiva é a conjugação de conhecimentos provenientes de disciplinas como a matemática, estatística e os sistemas de informação e tecnologia que pretende providenciar modelos preditivos que prevejam o comportamento microbiano em ambientes alimentares, de forma a poder prevenir a deterioração dos géneros alimentares bem como as doenças de origem alimentar. Os modelos preditivos primários, secundários e terciários são aplicados no intuito de melhorar a qualidade e segurança alimentar e particularmente os terciários, podem ser utilizados como ferramentas auxiliadoras na área de HACCP; é necessário ter em conta que estes modelos são uma representação muito simplificada da realidade, que possuem limitações devido á complexidade do comportamento microbiano e dos ambientes alimentares, podendo por isto estimar previsões que se desviem das situações reais. O presente trabalho tem como principal objectivo averiguar a aplicabilidade da microbiologia preditiva, particularmente, dos modelos terciários ou softwares preditivos, na análise de amostras de carne de vaca e porco armazenadas a 5ºC e 10ºC, comparando os resultados obtidos através da análise microbiológica clássica, realizada no laboratório de microbiologia da empresa SGS, com os resultados obtidos das previsões provenientes de dois softwares preditivos, nomeadamente, ComBase Predictor e PMP (Pathogen Modeling Program). Para tal, foram realizadas análises microbiológicas, por forma a realizar contagens de E.coli, S.aureus, L.monocytogenes e pesquisa de Salmonella e análises químicas para analisar o pH, aw e NaCl de 20 amostras de carne de vaca e 20 amostras de carne de porco Adicionalmente foram efetuadas contagens de microrganismos totais a 30ºC. Os resultados demonstraram que a ferramenta preditiva ComBase conseguiu efectuar melhores previsões para o crescimento de E. coli, S. aureus e L. monocytogenes em amostras de carne de vaca e de porco do que a ferramenta preditiva PMP. Contudo, mesmo sendo melhor, as previsões efectuadas pelo programa apresentaram desvios em relação às contagens reais que muito provavelmente se relacionam com a existência da flora de decomposição. Os resultados estimados pela ferramenta PMP foram sempre muito mais elevados do que os resultados obtidos na análise microbiológica laboratorial, o que demonstrou a sua não aplicabilidade a este tipo de amostras.
Resumo:
INTRODUCTION: The phospholipase activity in Candida albicans and Candida dubliniensis isolated from oral candidiasis cases were studied. METHODS: The phospholipase activity was evaluated in egg yolk agar. RESULTS: All the C. albicans isolates (n = 48) showed phospholipase activity (mean Pz = 0.66). However, none of the C. dubliniensis isolates (n = 24) showed this activity. CONCLUSIONS: The authors discuss whether these findings are a true characteristic of C. dubliniensis or a consequence of the methodology employed, which includes the possibility that NaCl may have inhibited the enzymatic activity of C. dubliniensis.
Resumo:
Evidence shows that cardiac hypertrophy (CH) is a risk factor for many cardiovascular diseases. Several stimuli may cause CH-like manifestations and promote volume or pressure overload. Exercise-induced cardiac hypertrophy is an expected adaptation to regular exercise training. Salt intake has been shown to be the most important determinant of blood pressure in different populations. The purpose of the present work was to verify the influence of physical exercise and sodium intake on the blood pressure and myocardium. The study was performed on 36 rats divided into six groups: Group I (diet without salt overload), Group II (diet without salt overload and swimming), Group III (diet with 2.5% NaCl solution and swimming), Group IV (diet with 5% NaCl solution and swimming), Group V (diet with 2.5% NaCl solution without exercise), Group VI (diet with 5% NaCl solution without exercise). The arterial pressure was significantly lower in Group I when compared with Group IV. The ratio of cardiac mass/body mass was increased in Groups III and IV. In conclusion, there was evidence that exercise training and NaCl intake promotes arterial hypertension and cardiac hypertrophy.
Resumo:
Cyanobacteria are photoautotrophic microorganisms with great potential for the biotechnological industry due to their low nutrient requirements, photosynthetic capacities and metabolic plasticity. In biotechnology, the energy sector is one of the main targets for their utilization, especially to produce the so called third generation biofuels, which are regarded as one of the best replacements for petroleum-based fuels. Although, several issues could be solved, others arise from the use of cyanobacteria, namely the need for high amounts of freshwater and contamination/predation by other microorganisms that affect cultivation efficiencies. The cultivation of cyanobacteria in seawater could solve this issue, since it has a very stable and rich chemical composition. Among cyanobacteria, the model microorganism Synechocystis sp. PCC 6803 is one of the most studied with its genome fully sequenced and genomic, transcriptomic and proteomic data available to better predict its phenotypic behaviors/characteristics. Despite suitable for genetic engineering and implementation as a microbial cell factory, Synechocystis’ growth rate is negatively affected by increasing salinity levels. Therefore, it is important to improve. To achieve this, several strategies involving the constitutive overexpression of the native genes encoding the proteins involved in the production of the compatible solute glucosylglycerol were implemented, following synthetic biology principles. A preliminary transcription analysis of selected mutants revealed that the assembled synthetic devices are functional at the transcriptional level. However, under different salinities, the mutants did not show improved robustness to salinity in terms of growth, compared with the wild-type. Nevertheless, some mutants carrying synthetic devices appear to have a better physiological response under seawater’s NaCl concentration than in 0% (w/v) NaCl.
Resumo:
Implantable devices must exhibit mechanical properties similar to native tissues to promote appropriate cellular behavior and regeneration. Herein, we report a new membrane manufacture method based on the synthesis of polyelectrolyte complexes (PECs) that exhibit saloplasticity, i.e. variable physical-chemistry using salt as a plasticizer. This is a Green Chemistry approach, as PECs generate structures that are stabilized solely by reversible electrostatic interactions, avoiding the use of harmful crosslinkers completely. Furthermore, natural polyelectrolytes - chitosan and alginate - were used. Upon mixing them, membranes were obtained by drying the PECs at 37ºC, yielding compact PECs without resorting to organicsolvents. The plasticizing effect of salt after synthesis was shown by measuring tensile mechanical properties, which were lower when samples were immersed in high ionic strength solutions.Salt was also used during membrane synthesis in different quan- tities (0 M, 0.15 M and 0.5 M in NaCl) yielding structures with no significant differences in morphology and degradation (around 15% after 3 months in lysozyme). However, swelling was higher (about 10x) when synthesized in the presence of salt. In vitro cell studies using L929 fibroblasts showed that cells adhered and proliferated preferentially in membranes fabricated in the presence of salt (i.e. the membranes with lower tensile strength). Structures with physical-chemical properties controlled with precision open a path to tissue engineering strategies depending on fine tuning mechanical properties and cellular adhesion simply by changing ionic strength during membrane manufacture
