231 resultados para Syngonanthus xerantemoides extract


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Neste trabalho é apresentado o estudo químico dos escapos de Syngonanthus nitens (Bong.) Ruhland, pertencente à família Eriocaulaceae. O extrato metanólico foi preparado por percolação, concentrado e fracionado em coluna de permeação em gel. As frações obtidas foram analisadas por CCDC e purificadas por HSCCC, HPLC-RI e HPLC-PDA. As estruturas foram determinadas usando ultravioleta, técnicas mono e bidimensionais de RMN e espectrometria de massas com fonte electrospray e analisador íon trap (modo de inserção direta). O perfil cromatográfico de HPLC-PDA mostrou que as flavonas derivadas da luteolina são os seus principais constituintes químicos. Foram isoladas as substâncias: 7-metoxiluteolina-8-C-β-D-glicopiranosídeo (SN1), 7-metoxiluteolina-6-C-β-D-glicopiranosídeo (SN2), 3',7-dimetoxiluteolina-6-C-β-D-glicopiranosídeo (SN3), luteolina (SN4), 6-hidroxiluteolina (SN5), luteolina-6-C--D-glicopiranosídeo (Sn6), 6-hidroxiluteolina-7-O--D-galactopiranosideo (Sn7) e 7-metoxiluteolina-6-C- β-D-glicopiranosideo-(3'-O-3''')-7ʹ-metoxiluteolina-8'-C-β-D-glicopiranosídeo (Sn8). Foram avaliadas as atividades antioxidantes do extrato metanólico dos escapos de S. nitens e do biflavonóide identificado, os quais apresentaram atividade significativa quando comparada com os padrões do ácido gálico, rutina e quercetina . A atividade antimicrobiana do extrato metanólico dos escapos e das substâncias identificadas derivadas da luteolina foram também avaliadas. O extrato metanólico dos escapos apresentou melhor atividade antimicrobiana, quando comparada com os demais flavonoides isolados e identificados do mesmo extrato. Finalmente, foi avaliada a atividade antiulcerogênica do extrato metanolico dos escapos, utilizando-se o modelo de lesão ulcerativa induzida por etanol absoluto

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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

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The Natural Rubber Latex (NRL) from Hevea brasiliensis has shown promise in biomedical applications due to its low cost, easy handling, mechanical properties and biocompatibility, being used for bone regeneration and wound healing due to its natural stimulus to angiogenesis. The aim of this work was to incorporate Casearia sylvestris Sw. extract in NRL biomembranes and study its release behavior. The complex membrane-extract has as object of study a new approach of using C. sylvestris extract in the treatment of wounds, for possessing antiseptic activity, anti-inflammatory and analgesic properties. The C. sylvestris species (Salicaceae), popularly known as "guaçatonga", presents great distribution and is used in folk medicine as antiulcer, wound healing, anti-snake venom, properties which have been proven and related to clerodane diterpenes (casearins A-X). The release rate of C. sylvestris compounds from extract-membrane complex was monitored and analyzed using the method of optical spectroscopy (UV-VIS). The release varied with temperature ranging from 14 to 33 days, releasing more than 90%, with an interesting and promising biomedical application, such as wound healing and burns.

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The objective of this study was to evaluate the phytotoxicity of Solanum aculeatissimum Jacq. leaves ethanolic extract in seeds germination, development and fixation of Lactuca sativa seedlings. The same study also aimed to assess the mitotic index of lettuce roots meristematic cells, quantification of phenols and total flavonoids and triage by mean of phytochemical testing of the main secondary metabolites classes. Bioassays of germination, development of root and hypocotyl were carried out in Petri dishes using achenes of Lactuca sativa L. cv. 'Grand Rapids' (lettuce). Concomitantly, were evaluated the physico-chemical characteristics (pH, osmotic potential and electrical conductivity), mitotic index, quantification of total phenols and flavonoids and determination of phytochemical profile of the treatments extract. The results obtained in the bioassays demonstrate that the ethanol extract of S. aculeatissimuma presents phytotoxic potential in the development of lettuce seedlings, given that the concentration of 20 mg/ml showed greater inhibition (41% of germination). The extract contains significant amounts of antioxidants, total flavonoid and phenols, where the concentration 1000µg/mL showed higher values (86.50%). Furthermore, it was possible to observe the presence of compounds with allelopathic activity in the phytochemical screening test as coumarins, tannins, terpenes, flavonoids and alkaloids. Given the above it is clear that the ethanolic extract of S. aculeatissimum presents allelopathic substances with phytotoxic activity that can affect the germination and development of other plant species in their natural environment.

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Background: Solobacterium moorei is a volatile sulfide compound (VSC)-producing Gram-positive anaerobic bacterium that has been associated with halitosis. The aim of this study was to investigate the effects of green tea extract and its major constituent epigallocatechin-3-gallate (EGCG) on growth and severalhalitosis-related properties of S. moorei.Methods: A microplate dilution assay was used to determine the antibacterial activity of green tea extract and EGCG against S. moorei. Their effects on bacterial cell membrane integrity were investigated by transmission electron microscopy and a fluorescence-based permeability assay. Biofilm formation was quantified by crystal violet staining. Adhesion of FITC-labeled S. moorei to oral epithelial cells was monitored by fluorometry. The modulation of beta-galactosidase gene expression in S. moorei was evaluated by quantitative RT-PCR.Results: The green tea extract as well as EGCG inhibited the growth of S. moorei, with MIC values of 500 and 250 mu g/ml, respectively. Transmission electron microscopy analysis and a permeabilization assay brought evidence that the bacterial cell membrane was the target of green tea polyphenols. Regarding the effects of green tea polyphenols on the S. moorei colonization properties, it was found that biofilm formation on EGCG-treated surfaces was significantly affected, and that green tea extract and EGCG can cause the eradication of pre-formed S. moorei biofilms. Moreover, both the green tea extract and EGCG were found to reduce the adherence of S. moorei to oral epithelial cells. The beta-galactosidase activity of S. moorei, which plays a key role in VSC production, was dose-dependently inhibited by green tea polyphenols. In addition, EGCG at 1/2 MIC significantly decreased the beta-galactosidase gene expression.Conclusion: Our study brought evidence to support that green tea polyphenols possess a number of properties that may contribute to reduce S. moorei-related halitosis. Therefore, these natural compounds may be of interest to be used to supplement oral healthcare products.

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