976 resultados para SACCHAROMYCES CEREVISIAE


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Poster presented at the 7th European Academy of Forensic Science Conference. Prague, 6-11 September 2015

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En la presente investigación se evaluó el efecto de la levadura Saccharomyces cerevisiae adicionada a la dieta basal de terneros sobre la Condición Corporal (CC), Alzada, Ganancia Diaria de Peso (GDP), Parámetros Hematológicos y Metabólicos en terneros de reemplazo. Se realizó en la granja Nero de la Universidad de Cuenca con 18 terneros Holstein Friesian de 4 a 6 meses de edad, entre 100 a 200 kg/PV, criados en pastoreo, todos con las mismas condiciones de suplementación y manejo nutricional; divididos en dos grupos, un control T1 (n1=9) alimentados con dieta basal y un experimental T2 (n2=9) adicionado a la dieta 15 g/ternero/día de levadura. Se usó un diseño de bloques completamente al azar (DBA) y los resultados fueron analizados con el programa SPSS. El peso y alzada se registró semanalmente para evaluar su GDP (gramos) y talla (cm), respectivamente. La CC y los parámetros sanguíneos fueron realizados en 5 momentos. Los resultados de GDP y Alzada fueron analizados con las pruebas estadísticas de Shapiro – Wilk y Levene al 5%, al realizar el (ADEVA) no se encontró diferencias estadísticas. La variable CC presento diferencia significativa (p <0.05). Al analizar los parámetros hematológicos se encontró diferencia estadística en glucosa (p <0.05). En el análisis financiero, se apreció que el grupo control tiene un menor costo por Kg de peso producido 0,84 USD vs 0,96 USD del grupo experimental. En conclusión, se pone en manifiesto que el empleo de S. cerevisiae como aditivo nutricional de terneros de remplazo criados al pastoreo, puede constituir como una alternativa que incrementa los parámetros de salud expresados en glucosa y condición corporal

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Na aquicultura são utilizados análises da ativação e incremento da migração de macrófagos, com intuito de verificar a capacidade imunológica inespecífica dos peixes frente a um desafio. Neste sentido, o objetivo deste estudo foi determinar o tempo de migração de monócitos/macrófagos para a cavidade peritoneal em matrinxã, Brycon amazonicus, por meio da técnica de inoculação de leveduras Saccharomyces cerevisiae, e verificar as possíveis alterações dos parâmetros hematológicos após o estímulo. Foram utilizados 30 matrinxãs com peso médio de 101,55 ± 24,50 g e comprimento médio de 19,75 ± 1,72 cm. Os tempos de inoculação utilizados foram 2, 4, 8 e 12 horas, sendo utilizados 6 animais por tempo. Após os períodos de incubação (2, 4, 8 e 12 horas), os exemplares foram anestesiados e alíquotas de sangue foram coletadas por punção do vaso caudal, para a análise: número total de células, contagem diferencial e total dos leucócitos e contagem total de trombócitos, hematócrito, taxa de hemoglobina e índices hematimétricos (VCM, HCM e CHCM). Os resultados mostram que a capacidade fagocítica do macrófago não apresentou diferenças significativas entre os tempos experimentais. Com relação ao índice fagocítico, o tempo de 2 horas representa o tempo em que os macrófagos fagocitaram maior número de leveduras com diferenças significativas em relação aos outros tempos experimentais, indicando que este tempo (2 horas) de incubação foi suficiente para a migração e ativação máxima dos macrófagos da cavidade peritoneal, da espécie estudada. Os valores do número de eritrócitos apresentaram diferenças entre os tempos de incubação. Entretanto, os valores dos outros parâmetros hematológicos não apresentaram diferenças significativas.

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A preconcentration method based on the use of Saccharomyces cerevisiae as sorbent material is proposed for the determination of Cd(II) in river water. The solid phase extraction was performed in batch mode and the determination of the analyte in the solid phase was easily carried out by introducing a slurry of the yeast (0.0625 g / 2.5 mL) directly into the ICP OES. A limit of detection of 0.11 µg L-1 and a sample throughput in the range of 4 - 54 sample h-1 were obtained. Determinations of cadmium in a certified sample and in real river water samples were in excellent agreement with the expected values.

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L’acétylation est une modification post-traductionnelle des protéines essentielles. Elle est impliquée dans bon nombre de processus cellulaires importants comme la régulation de la structure de la chromatine et le recrutement de protéines. Deux groupes d’enzymes, soient les lysines acétyltransférases et les lysines désacétylases, régulent cette modification, autant sur les histones que sur les autres protéines. Au cours des dernières années, de petites molécules inhibitrices des désacétylases ont été découvertes. Certaines d’entre elles semblent prometteuses contre diverses maladies telles le cancer. L’acide valproïque, un inhibiteur de deux des trois classes des désacétylases, a un effet antiprolifératif chez plusieurs organismes modèles. Toutefois, les mécanismes cellulaires sous-jacents à cet effet restent encore méconnus. Ce mémoire met en lumière l’effet pH dépendant de l’acide valproïque sur différentes voies cellulaires importantes chez la levure Saccharomyces cerevisiae. Il démontre que ce composé a la capacité d’inhiber la transition entre les phases G1 et S par son action sur l’expression des cyclines de la phase G1. De plus, il inhibe l’activation de la kinase principale de la voie activée suite à un stress à la paroi cellulaire. L’acide valproïque occasionne également un arrêt dans la réplication de l’ADN sans y causer de dommage. Il s’agit là d’un effet unique qui, à notre connaissance, n’est pas observable avec d’autres agents qui inhibent la progression en phase S.

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L’acétylation est une modification post-traductionnelle des protéines essentielles. Elle est impliquée dans bon nombre de processus cellulaires importants comme la régulation de la structure de la chromatine et le recrutement de protéines. Deux groupes d’enzymes, soient les lysines acétyltransférases et les lysines désacétylases, régulent cette modification, autant sur les histones que sur les autres protéines. Au cours des dernières années, de petites molécules inhibitrices des désacétylases ont été découvertes. Certaines d’entre elles semblent prometteuses contre diverses maladies telles le cancer. L’acide valproïque, un inhibiteur de deux des trois classes des désacétylases, a un effet antiprolifératif chez plusieurs organismes modèles. Toutefois, les mécanismes cellulaires sous-jacents à cet effet restent encore méconnus. Ce mémoire met en lumière l’effet pH dépendant de l’acide valproïque sur différentes voies cellulaires importantes chez la levure Saccharomyces cerevisiae. Il démontre que ce composé a la capacité d’inhiber la transition entre les phases G1 et S par son action sur l’expression des cyclines de la phase G1. De plus, il inhibe l’activation de la kinase principale de la voie activée suite à un stress à la paroi cellulaire. L’acide valproïque occasionne également un arrêt dans la réplication de l’ADN sans y causer de dommage. Il s’agit là d’un effet unique qui, à notre connaissance, n’est pas observable avec d’autres agents qui inhibent la progression en phase S.

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Alachlor has been a commonly applied herbicide and is a substance of ecotoxicological concern. The present study aims to identify molecular biomarkers in the eukaryotic model Saccharomyces cerevisiae that can be used to predict potential cytotoxic effects of alachlor, while providing new mechanistic clues with possible relevance for experimentally less accessible eukaryotes. It focuses on genome-wide expression profiling in a yeast population in response to two exposure scenarios exerting effects from slight to moderate magnitude at phenotypic level. In particular, 100 and 264 genes, respectively, were found as differentially expressed on a 2-h exposure of yeast cells to the lowest observed effect concentration (110 mg/L) and the 20% inhibitory concentration (200 mg/L) of alachlor, in comparison with cells not exposed to the herbicide. The datasets of alachlor-responsive genes showed functional enrichment in diverse metabolic, transmembrane transport, cell defense, and detoxification categories. In general, the modifications in transcript levels of selected candidate biomarkers, assessed by quantitative reverse transcriptase polymerase chain reaction, confirmed the microarray data and varied consistently with the growth inhibitory effects of alachlor. Approximately 16% of the proteins encoded by alachlor-differentially expressed genes were found to share significant homology with proteins from ecologically relevant eukaryotic species. The biological relevance of these results is discussed in relation to new insights into the potential adverse effects of alachlor in health of organisms from ecosystems, particularly in worst-case situations such as accidental spills or careless storage, usage, and disposal.

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Abstract: Alcoholic beverages are produced following the fermentation of sugars by yeasts, mainly (but not exclusively) strains of the species, Saccharomyces cerevisiae. The sugary starting materials may emanate from cereal starches (which require enzymatic pre‐hydrolysis) in the case of beers and whiskies, sucrose‐rich plants (molasses or sugar juice from sugarcane) in the case of rums, or from fruits (which do not require pre‐hydrolysis) in the case of wines and brandies. In the presence of sugars, together with other essential nutrients such as amino acids, minerals and vitamins, S. cerevisiae will conduct fermentative metabolism to ethanol and carbon dioxide (as the primary fermentation metabolites) as the cells strive to make energy and regenerate the coenzyme NAD+ under anaerobic conditions. Yeasts will also produce numerous secondary metabolites which act as important beverage flavour congeners, including higher alcohols, esters, carbonyls and sulphur compounds. These are very important in dictating the final flavour and aroma characteristics of beverages such as beer and wine, but also in distilled beverages such as whisky, rum and brandy. Therefore, yeasts are of vital importance in providing the alcohol content and the sensory profiles of beverages. This Introductory Chapter reviews, in general, the growth, physiology and metabolism of S. cerevisiae in alcoholic beverage fermentations.

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Whisky is a major global distilled spirit beverage. Whiskies are produced from cereal starches that are saccharified, fermented and distilled prior to spirit maturation. The strain of Saccharomyces cerevisiae employed in whisky fermentations is crucially important not only in terms of ethanol yields, but also for production of minor yeast metabolites which collectively contribute to development of spirit flavour and aroma characteristics. Distillers must therefore pay very careful attention to the strain of yeast exploited to ensure consistency of fermentation performance and spirit congener profiles. In the Scotch whisky industry, initiatives to address sustainability issues facing the industry (for example, reduced energy and water usage) have resulted in a growing awareness regarding criteria for selecting new distilling yeasts with improved efficiency. For example, there is now a desire for Scotch whisky distilling yeasts to perform under more challenging conditions such as high gravity wort fermentations. This article highlights the important roles of S. cerevisiae strains in whisky production and describes key fermentation performance attributes sought in distiller's yeast, such as high alcohol yields, stress tolerance and desirable congener profiles. We hope that the information herein will be useful for whisky producers and yeast suppliers in selecting new distilling strains of S. cerevisiae, and for the scientific community to stimulate further research in this area.

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Sixteen different strains of Saccharomyces cerevisiae and Saccharomyces bayanus were evaluated in the production of raspberry fruit wine. Raspberry juice sugar concentrations were adjusted to 16 degrees Brix with a sucrose solution, and batch fermentations were performed at 22 degrees C. Various kinetic parameters, such as the conversion factors of the substrates into ethanol (Y(p/s)), biomass (Y(x/s)), glycerol (Y(g/s)) and acetic acid (Y(ac/s)), the volumetric productivity of ethanol (Q(p)), the biomass productivity (P(x)), and the fermentation efficiency (E(f)) were calculated. Volatile compounds (alcohols, ethyl esters, acetates of higher alcohols and volatile fatty acids) were determined by gas chromatography (GC-FID). The highest values for the E(f), Y(p/s), Y(g/s), and Y(x/s) parameters were obtained when strains commonly used in the fuel ethanol industry (S. cerevisiae PE-2, BG, SA, CAT-1, and VR-1) were used to ferment raspberry juice. S. cerevisiae strain UFLA FW 15, isolated from fruit, displayed similar results. Twenty-one volatile compounds were identified in raspberry wines. The highest concentrations of total volatile compounds were found in wines produced with S. cerevisiae strains UFLA FW 15 (87,435 mu g/L), CAT-1 (80,317.01 mu g/L), VR-1 (67,573.99 mu g/L) and S. bayanus CBS 1505 (71,660.32 mu g/L). The highest concentrations of ethyl esters were 454.33 mu g/L, 440.33 mu g/L and 438 mu g/L for S. cerevisiae strains UFLA FW 15, VR-1 and BG, respectively. Similar to concentrations of ethyl esters, the highest concentrations of acetates (1927.67 mu g/L) and higher alcohols (83,996.33 mu g/L) were produced in raspberry wine from S. cerevisiae UFLA FW 15. The maximum concentration of volatile fatty acids was found in raspberry wine produced by S. cerevisiae strain VR-1. We conclude that S. cerevisiae strain UFLA FW 15 fermented raspberry juice and produced a fruit wine with low concentrations of acids and high concentrations of acetates, higher alcohols and ethyl esters. (c) 2010 Elsevier B.V. All rights reserved.

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Dissertação apresentada à Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa para obtenção do grau de Mestre em Biotecnologia

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La levadura de cerveza, en la variedades Saccharomyces y Torula , se utilizó en nutrición animal durante las décadas del 50 y 60, actualmente se ha comenzado a incorporarse nuevamente como agregado en las dietas de aves, cerdos y vacas lecheras. Saccharomyces cerevisiae fue tradicionalmente considerada como uno de los UGF (Unidentified Growth Factors), de origen natural, al igual que la harina de alfalfa, los solubles de pescado, suero de leche. En aves, y usado en pequeñas porciones, su acción más provechosa residiría en su 40% de contenido proteico de buen valor biológico (Card, 1961 y Buxade Carbo, 1985), y como aporte de vitaminas del grupo B (Ciba-Geigy, 1975). (...) Objetivo general: * Se propone la inclusión de la levadura de cerveza, en escamas, a diferentes niveles para determinar el porcentaje mínimo y adecuado que actué como verdadero promotor natural de crecimiento en parrilleros, sin dejar de considerar el importante aporte de vitaminas del grupo B, ahorrando estos componentes del núcleo vitamínico-mineral. En todos los casos con el principal propósito de reducir los costos del alimento balanceado.

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A pesquisa foi realizada para comparar os efeitos de diversos fatores (temperatura, pH, concentração de sacarose, 2,4-dinitrofenol e fontes de nitrogênio) sobre a produção de trealose em Saccharomyces uvarum IZ-1904 e Saccharomyces cerevisiae (M-300-A e de panificaçao) durante a fermentação alcoólica. Com a levedura IZ-1904 houve menor produção de trealose do que M-300-A e de panificaçao. A trealose foi formada em maior quantidade (p < 0,05) a 34°C. Em pH 4,5 houve maior acúmulo de trealose do que em pH 3,0 para as leveduras M-300-A e de panificaçao. A adição de 18ppm de 2,4-dinitrofenol acarretou decréscimo (p < 0,05) na quantidade de trealose formada pela levedura de panificaçao e sem efeito para IZ-1904. O aumento da concentração de sacarose ocasionou a maior produção de trealose.

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A pesquisa foi realizada para comparar os efeitos de diversos fatores (temperatura, pH, concentração de sacarose, 2,4-dinitrofenol e fontes de nitrogênio) sobre a produção de glicerol por Saccharomyces uvarum IZ-1904 e Saccharomyces cerevisiae (M-3 00A e de panificação) durante a fermentação alcoólica. A quantidade de glicerol foi fortemente influenciada pela linhagem da levedura. Com a levedura IZ-1904 houve menor produção de glicerol do que M-300-A e de panificação em todas as condições estudadas. Mais glicerol foi significativamente formado por fermentação a 34°C do que a 25°C e 12°C. Em pH 4.5 houve maior produção de glicerol do que a pH 3.0. A adição de 18 ppm de 2,4-dinitrofenol provocou decréscimo no glicerol formado e esse decréscimo foi maior com as leveduras M-300-A e de panificação do que com IZ-1904. O aumento da concentração de sacarose levou a maior produção de glicerol.