1000 resultados para Food Microbiology
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A survey of European Microbial Biological Resource Centers and their users provided an overview on Microbiology education and training. The results identified future increases in demand despite several shortcomings and gaps in the current offer. Urgent adjustments are needed to match users' needs, integrate innovative programs, and adopt new technologies.
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[Excerpt] Waste cooking oils (WCO) generated from vegetable oils used at high temperatures in food frying, cause environmental problems and must be reutilized. New strategies to valorize these wastes are attracting a great scientific interest due to the important advantages offered from an economic and environmental point of view. A microbial platform can be established to convert low-value hydrophobic substrates, such as waste cooking oils, to microbial lipids (single cell oil, SCO) and other value-added bioproducts, such as lipase. (...)
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[Excerpt] Isolation and purification of valuable compounds are very important processes to valorize agro-food byproducts. Currently, protein extraction and development of environmentally friendly technologies are industrially relevant topics [1]. Among the extracted proteins from byproducts proteases are a relevant group for industrial applications. These enzymes are a class of hydrolytic enzymes capable of cleaving the peptide bonds of proteins chains and are essential in physiological processes [2]. (...)
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[Excerpt] Mycotoxins are secondary toxic metabolites of filamentous fungi. Aflatoxins (AFs) are produced to Aspergillus species such as A. flavus and A. parasiticus. These fungi are ubiquitous in nature and usually found on agricultural commodities. Therefore, AFs are encountered in many important foodstuff, including wheat, rice, maize, peanuts, sorghum, pearl millet, spices, oilseeds, tree nuts and milk. Due to the high toxicity of AFs, many methods have been studied to reduce or eliminate these mycotoxins from food and feed. Gamma irradiation is one technology that has been investigated with promising results. The aims of this study were (I) to study the effect of gamma radiation on aflatoxin B1, aflatoxin B2, aflatoxin G1 and aflatoxin G2 (II) to evaluate the effect of the presence of water on AFs degradation during the irradiation process; and (IV) to evaluate the cytotoxicity of radiolytic products formed. (...)
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Lactic acid bacteria (LAB) play a key role in the biopreservation of a wide range of fermented food products, such as yogurt, cheese, fermented milks, meat, fish, vegetables (sauerkraut, olives and pickles), certain beer brands, wines and silage, allowing their safe consumption, which gave to these bacteria a GRAS (Generally Recognised as Safe) status. Besides that, the use of LAB in food and feed is a promising strategy to reduce the exposure to dietary mycotoxins, improving their shelf life and reducing health risks, given the unique mycotoxin decontaminating characteristic of some LAB. Mycotoxins present carcinogenic, mutagenic, teratogenic, neurotoxic and immunosuppressive effects over animals and Humans, being the most important ochratoxin A (OTA), aflatoxins (AFB1), trichothecenes, zearalenone (ZEA), fumonisin (FUM) and patulin. In a previous work of our group it was observed OTA biodegradation by some strains of Pediococcus parvulus isolated from Douro wines. So, the aim of this study was to enlarge the screening of the biodetoxification over more mycotoxins besides OTA, including AFB1, and ZEA. This ability was checked in a collection of LAB isolated from vegetable (wine, olives, fruits and silage) and animal (milk and dairy products, sausages) sources. All LAB strains were characterized phenotypically (Gram, catalase) and genotypically. Molecular characterisation of all LAB strains was performed using genomic fingerprinting by MSP- PCR with (GTG)5 and csM13 primers. The identification of the isolates was confirmed by 16S rDNA sequencing. To study the ability of LAB strains to degrade OTA, AFB1 and ZEA, a MRS broth medium was supplemented with 2.0 g/mL of each mycotoxin. For each strain, 2 mL of MRS supplemented with the mycotoxins was inoculated in triplicate with 109 CFU/mL. The culture media and bacterial cells were extracted by the addition of an equal volume of acetonitrile/methanol/acetic acid (78:20:2 v/v/v) to the culture tubes. A 2 mL sample was then collected and filtered into a clean 2 mL vial using PP filters with 0.45 m pores. The samples were preserved at 4 °C until HPLC analysis. Among LAB tested, 10 strains isolated from milk were able to eliminate AFB1, belonging to Lactobacillus casei (7), Lb. paracasei (1), Lb. plantarum (1) and 1 to Leuconostoc mesenteroides. Two strains of Enterococcus faecium and one of Ec. faecalis from sausage eliminated ZEA. Concerning to strains of vegetal origin, one Lb. plantarum isolated from elderberry fruit, one Lb. buchnerii and one Lb. parafarraginis both isolated from silage eliminated ZEA. Other 2 strains of Lb. plantarum from silage were able to degrade both ZEA and OTA, and 1 Lb. buchnerii showed activity over AFB1. These enzymatic activities were also verified genotypically through specific gene PCR and posteriorly confirmed by sequencing analysis. In conclusion, due the ability of some strains of LAB isolated from different sources to eliminate OTA, AFB1 and ZEA one can recognize their potential biotechnological application to reduce the health hazards associated with these mycotoxins. They may be suitable as silage inoculants or as feed additives or even in food industry.
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The presence of mycotoxins in foodstuff is a matter of concern for food safety. Mycotoxins are toxic secondary metabolites produced by certain molds, being ochratoxin A (OTA) one of the most relevant. Wines can also be contaminated with these toxicants. Several authors have demonstrated the presence of mycotoxins in wine, especially ochratoxin A (OTA) [1]. Its chemical structure is a dihydro-isocoumarin connected at the 7-carboxy group to a molecule of L--phenylalanine via an amide bond. As these toxicants can never be completely removed from the food chain, many countries have defined levels in food in order to attend health concerns. OTA contamination of wines might be a risk to consumer health, thus requiring treatments to achieve acceptable standards for human consumption [2]. The maximum acceptable level of OTA in wines is 2.0 g/kg according to the Commission regulation No. 1881/2006 [3]. Therefore, the aim of this work was to reduce OTA to safer levels using different fining agents, as well as their impact on white wine physicochemical characteristics. To evaluate their efficiency, 11 commercial fining agents (mineral, synthetic, animal and vegetable proteins) were used to get new approaches on OTA removal from white wine. Trials (including a control without addition of a fining agent) were performed in white wine artificially supplemented with OTA (10 µg/L). OTA analysis were performed after wine fining. Wine was centrifuged at 4000 rpm for 10 min and 1 mL of the supernatant was collected and added of an equal volume of acetonitrile/methanol/acetic acid (78:20:2 v/v/v). Also, the solid fractions obtained after fining, were centrifuged (4000 rpm, 15 min), the resulting supernatant discarded, and the pellet extracted with 1 mL of the above solution and 1 mL of H2O. OTA analysis was performed by HPLC with fluorescence detection according to Abrunhosa and Venâncio [4]. The most effective fining agent in removing OTA (80%) from white wine was a commercial formulation that contains gelatine, bentonite and activated carbon. Removals between 10-30% were obtained with potassium caseinate, yeast cell walls and pea protein. With bentonites, carboxymethylcellulose, polyvinylpolypyrrolidone and chitosan no considerable OTA removal was verified. Following, the effectiveness of seven commercial activated carbons was also evaluated and compared with the commercial formulation that contains gelatine, bentonite and activated carbon. The different activated carbons were applied at the concentration recommended by the manufacturer in order to evaluate their efficiency in reducing OTA levels. Trial and OTA analysis were performed as explained previously. The results showed that in white wine all activated carbons except one reduced 100% of OTA. The commercial formulation that contains gelatine, bentonite and activated carbon (C8) reduced only 73% of OTA concentration. These results may provide useful information for winemakers, namely for the selection of the most appropriate oenological product for OTA removal, reducing wine toxicity and simultaneously enhancing food safety and wine quality.
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Polysaccharides and oligosaccharides can improve quality and enhance nutritional value of final food products due to their technological and nutritional features ranging from their capacity to improve texture to their effect as dietary fibers. For this reason, they are among the most studied ingredients in the food industry. The use of natural polysaccharides and oligosaccharides as food additives has been a reality since the food industry understood their potential technological and nutritional applications. Currently, the replacement of traditional ingredients and/or the synergy between traditional ingredients and polysaccharides and oligosaccharides are perceived as promising approaches by the food industry. Traditionally, polysaccharides have been used as thickening, emulsifying, and stabilizing agents, however, at this moment polysaccharides and oligosaccharides claim health and nutritional advantages, thus opening a new market of nutritional and functional foods. Indeed, their use as nutritional food ingredients enabled the food industry to develop a countless number of applications, e.g., fat replacers, prebiotics, dietary fiber, and antiulcer agents. Based on this, among the scientific community and food industry, in the last years many research studies and commercial products showed the possibility of using either new or already used sources (though with changed properties) of polysaccharides for the production of food additives with new and enhanced properties. The increasing interest in such products is clearly illustrated by the market figures and consumption trends. As an example, the sole market of hydrocolloids is estimated to reach $7 billion in 2018. Moreover, oligosaccharides can be found in more than 500 food products resulting in a significant daily consumption. A recent study from the Transparency Market Research on Prebiotic Ingredients Market reported that prebiotics' demand was worth $2.3 billion in 2012 and it is estimated to reach $4.5 billion in 2018, growing at a compound annual growth rate of 11.4% between 2012 and 2018. The entrance of this new generation of food additives in the market, often claiming health and nutritional benefits, imposes an impartial analysis by the legal authorities regarding the accomplishment of requirements that have been established for introducing novel ingredients/food, including new poly- and oligosaccharides. This chapter deals with the potential use of polysaccharides and oligosaccharides as food additives, as well as alternative sources of these compounds and their possible applications in food products. Moreover, the regulation process to introduce novel polysaccharides and oligosaccharides in the market as food additives and to assign them health claims is discussed.
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Biofilms in food processing plants represent not only a problem to human health but also cause economic losses by technical failure in several systems. In fact, many foodborne outbreaks have been found to be associated with biofilms. Biofilms may be prevented by regular cleaning and disinfection, but this does not completely prevent biofilm formation. Besides, due to their diversity and to the development of specialized phenotypes, it is well known that biofilms are more resistant to cleaning and disinfection than planktonic microorganisms. In recent years, a considerable effort has been made in the prevention of microbial adhesion and biofilm formation on food processing surfaces and novel technologies have been introduced. In this context, this chapter discusses the main conventional and emergent strategies that have been employed to prevent bacterial adhesion to food processing surfaces and thus to efficiently maintain good hygiene throughout the food industries.
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[Excerpt] Introduction: Thermal processing is probably the most important process in food industry that has been used since prehistoric times, when it was discovered that heat enhanced the palatability and the life of the heat-treated food. Thermal processing comprehends the heating of foods at a defined temperature for a certain length of time. However, in some foods, the high thermotolerance of certain enzymes and microorganisms, their physical properties (e.g.,highviscosity),ortheircomponents(e.g.,solidfractions) require the application of extreme heat treatments that not only are energy intensive, but also will adversely affect the nutritional and organoleptic properties of the food. Technologies such as ohmic heating, dielectric heating (which includes microwave heating and radiofrequency heating), inductive heating, and infrared heating are available to replace, or complement, the traditional heat-dependent technologies (heating through superheated steam, hot air, hot water, or other hot liquid, being the heating achieved either through direct contact with those agents – mostly superheated steam – or through contact with a hot surface which is in turn heated by such agents). Given that the “traditional” heatdependent technologies are thoroughly described in the literature, this text will be mainly devoted to the so-called “novel” thermal technologies. (...)
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The prelims comprise: * Half-Title Page * Dedication Page * Title Page * Copyright Page * Table of Contents * Foreword * Acknowledgements * Disclaimer * Introduction
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OBJECTIVE: To develop a simplified questionnaire for self-evaluation by adolescents of foods associated with the risk of coronary diseases. METHODS: Frequency questionnaires about 80 foods were answered by representative samples of 256 adolescents aged 12 to 19 from Rio de Janeiro as part of the Nutrition and Health Research project. The dependent variable was the serum cholesterol predicting equation as influenced by diet, and the independent variables were the foods. The variables were normalized and, using Pearson's correlation coefficient, those with r>0.10 were selected for the regression model. The model was analyzed for sex, age, random sample, and total calories. Those food products that explained 85% of the cholesterol variation equation were present in the caloric model, and contained trans fatty acids were selected for the questionnaire. RESULTS: Sixty-five food products had a statistically significant correlation (P<0.001) with the dependent variable. The simplified questionnaire included 9 food products present in all tested models: steak or broiled meat, hamburger, full-fat cheese, French fries or potato chips, whole milk, pies or cakes, cookies, sausages, butter or margarine. The limit of the added food points for self-evaluation was 100, and over 120 points was considered excessive. CONCLUSION: The scores given to the food products and the criteria for the evaluation of the consumption limits enabled the adolescents to get to know and to balance their intake.
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PhD in Chemical and Biological Engineering
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La soja y el maní son cultivos de gran importancia en la provincia de Córdoba y en la Argentina. La utilización de proteínas vegetales se ha incrementado notablemente debido a su alto valor nutricional y a sus atributos funcionales deseables. Las harinas de soja y de maní, subproductos de la extracción de aceite, presentan un alto contenido de proteínas vegetales de excelente calidad nutricional, de bajo precio y con escaso nivel de aprovechamiento en la industria alimenticia. Los concentrados de proteínas de soja son poco utilizados en la elaboración de alimentos, además el desarrollo de concentrados de proteínas de maní puede proveer a la industria de un nuevo ingrediente con alto contenido de proteínas para la formulación y fortificación de alimentos tradicionales. Los postres listos para consumir disponibles en el mercado, están formados por mezclas de almidón gelificado y derivados lácteos, sobre los que se agregan diversos aditivos alimentarios (como sacarosa, aromatizantes, espesantes, etc.). La incorporación de proteínas vegetales puede ser una eficaz forma de incrementar el nivel de proteínas y, en consecuencia, el valor nutricional de estos productos. Además de ser una alternativa a los alimentos elaborados con proteínas animales. Pese a que Córdoba es un gran productor de soja y maní, sus derivados no son empleados actualmente como ingredientes en este tipo de alimentos.El objetivo general de este proyecto es estudiar el efecto de la incorporación de proteínas de origen vegetal sobre las propiedades físico-químicas y funcionales de sistemas alimenticios basados en almidón gelatinizado, prestando fundamental atención a las interacciones que se establecen entre las diferentes moléculas. Se planifica obtener concentrados de proteínas a partir de harina desgrasada de soja y de maní y estudiar su composición y sus propiedades funcionales. Se elaborarán mezclas de los concentrados con almidones de maíz, mandioca y trigo. Se estudiará el comportamiento termo-mecánico de las mezclas y la calidad de los geles mediante la cantidad de agua liberada, el perfil reológico y el color. También se realizarán análisis sensoriales para la selección de los parámetros de calidad de los geles y se estudiarán la digestibilidad de las proteínas y del almidón. Al mismo tiempo se estudiarán las interacciones químicas y físicas entre los distintos componentes. Los resultados servirán para generar y difundir conocimientos sobre la relación entre las interacciones y la calidad de los productos, lo que facilitará la optimización de formulaciones y procesos.
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El objetivo de este proyecto es investigar el sustrato neurobiológico que subyace a los efectos centrales de grelina (Gr) en estructuras extrahipotalámicas tales como núcleo dorsal del rafe (NDR), hipocampo(Hi) y amígdala(Am) donde hemos demostrado que el péptido incrementa la memoria e ingesta, Los mecanismos neurales, neurotrasmisores(nt), segundos mensajeros, etc., involucrados en estos procesos fisiológicos, inducidos por el péptido, necesitan aun ser esclarecidos. Hemos demostrado que grelina incrementa la retención de la memoria cuando es inyectado en Hi, NDR y Am. También incrementa la ingesta al ser administrado en Hi y NDR pero no así en Am. En Hi los efectos de Gr sobre la memoria se correlacionan con incremento en los niveles tisulares de óxido nítrico (NO) y con la disponibilidad del nt 5-HT. En lo que a electrofisiología se refiere hemos demostrado que Gr disminuye el umbral para generar potenciación a largo plazo (LTP). A fin de aportar nuevas evidencias que contribuyan a esclarecer los efectos del péptido sobre memoria e ingesta utilizaremos estudios conductuales, determinaciones bioquímicas y determinaciones electrofisiológicas. En lo que a ingesta se refiere intentaremos esclarecer el papel de los núcleos central y basolateral de la Am en aspectos hedónicos de la ingesta inducida por Gr En esta etapa, más específicamente nos proponemos:1) Determinar si los efectos de grelina sobre ingesta y memoria demostrados en hipocampo y NDR después de la su administración se correlacionan con modificaciones en la liberación de serotonina utilizando cortes de hipocampo precargados con 5HT tritiada en presencia y ausencia del péptido.2) Evaluar si el incremento de óxido nítrico inducido por grelina en hipocampo se correlaciona con cambios en la expresión de nNOS, utilizando Western-blot y la importancia de NOS/NO en la acción de grelina repitiendo los experimentos previo tratamiento de las ratas con inhibidores de NOS. 3)Estudiar la participación del nt glutamato en los efectos hipocampales de Gr sobre la memoria. Analizando a) si grelina modifica la liberación del nt a partir de sinaptosomas aislados de hipocampo de ratas pretratadas con Gr.b) la participación de los receptores NMDA y GABAa en los efectos de grelina previo bloqueo farmacológico del mencionado receptor y el test step down.c) la participación de los receptores NMDA y GABAa en los efectos de grelina utilizando electrofisiología y Western Blot. 4) Estudiar el efecto de la administración de Gr en Amigdala Central y Basolateral sobre aspectos hedónicos de la ingesta utilizando diferentes paradigmas conductuales en animales. Estudiaremos:a) si Gr modifica el consumo de alimento de diferente palatabilidad en animales y si afecta el componente motivacional de la conducta de ingesta paradigma de "runway".
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Las reacciones bioquímicas que ocurren como consecuencia del tratamiento y almacenamiento de los alimentos, mejoran la seguridad alimentaria, las propiedades sensoriales y la vida útil. Sin embargo, el tratamiento térmico, la exposición a la luz y el oxígeno pueden causar daño oxidativo a los lípidos y proteínas. Los procesos oxidativos de matrices complejas tienen características distintivas que no se manifiestan cuando los componentes son sometidos a oxidación individualmente. La hipótesis de trabajo es que la oxidación de proteínas en matrices alimentarias complejas altera la estructura y las propiedades funcionales de las proteínas y, que las modificaciones que se producen varían según las condiciones de procesamiento y de la composición química del alimento. Nuestros estudios intentan demostrar que el estado oxidativo de las proteínas de un alimento es un parámetro importante para la evaluación de las propiedades funcionales, sensoriales y nutricionales de un producto lácteo. El objetivo general del proyecto es el estudio de los procesos de oxidación de matrices alimentarias complejas (la leche, miel) y su relación con distintos procesos y materiales utilizados en la industria. Es decir, nos proponemos estudiar las consecuencias funcionales y biológicas (calidad nutricional, coagulación) de la oxidación proteica en modelos experimentales “in vitro” y en productos comerciales. 1. Estudiar los fenómenos de peroxidación proteica en leche entera y descremada sometida a los distintos procesos tecnológicos de la producción de leche y queso a escala laboratorio. Se realizarán las mismas experiencias con albúmina sérica y con proteínas aisladas de suero de leche para comparar diferencias entre una matriz compleja y una simple. 2. Determinar la relación entre oxidación y composición proteica de la leche, y los cambios en las fracciones proteicas aisladas (caseínas y beta-lactoglobulina). 3. Analizar el impacto de los procesos tecnológicos a nivel de producción primaria (composición proteica y estado de oxidación) en los indicadores de inflamación (contenido de células somáticas y proteína C Reactiva) y de estado redox (capacidad antioxidante de los productos lácteos y nivel de carbonilos de proteinas). 4. Comparar las características de composición química y el estado de oxidación de leche provenientes de las tres regiones (Buenos Aires, Santa Fe y Córdoba) que conforman la cuenca láctea Argentina. Este objetivo se realizará conjuntamente con los integrantes de nuestro grupo de investigación que trabajan en el Laboratorio de Control de Calidad de la Escuela Superior de Lechería. 5. Determinar los metabolitos secundarios de mieles uniflorales propuestos como responsables de la capacidad antioxidante de estas (polifenoles) y como indicadores de su origen botánico. 6. Valorar la capacidad antioxidante total de mieles uniflorales. 7. Validar los métodos analíticos y semicuantitativos utilizados y a utilizar en el presente proyecto teniendo en cuenta lo efectos de matrices típico de los fluidos biológicos y las mezclas. El estudio de las modificaciones oxidativas de matrices complejas es un tema que es importante tanto desde el punto de vista del conocimiento básico como del aplicado. Nosotros creemos que el presente proyecto aportará conocimiento sobre las características de las vías oxidativas de proteínas en matrices complejas y que podrá ser utilizado para diseñar estrategias productivas tendientes a disminuir el deterioro de la calidad de la leche debido a la exposición a energía radiante. Parte de la experiencia ganada por el grupo ha sido ya volcada a subsanar dificultades y problemas de oxidación y deterioro de la calidad de alimentos. Además, se contribuirá a discernir la paradoja que existe en el área sobre las propiedades oxidantes/antioxidantes de los polifenoles y la relación entre estas y el estado oxidativo de un alimento. The biochemical reactions that occur as a result of food treatment and storage, improve food security, sensory properties and shelf life. Heat treatment, exposure to light and oxygen can cause oxidative damage to lipids and proteins. Oxidative processes in complex matrices display distinctive features that do not appear when the components are individually subjected to oxidation. The hypothesis is that protein oxidation in complex food matrices alters the structure and functional properties of proteins and that the modifications vary according to process conditions and food composition. The main goal is to study oxidation of complex food matrices (milk, honey) with different processes and materials used in the industry. The specific aims are: 1. To study protein oxidation in whole milk and skim subject to various technological processes. The same experiences will be done with serum albumin and isolated whey proteins to compare complex and simple matrices. 2. To determine the relationship between oxidation and milk protein composition, and changes in casein and beta-lactoglobulin. 3. Analyze the impact of technological processes at the level of primary production on markers of inflammation and redox (antioxidant capacity and protein carbonyls). 4. Compare characteristics of chemical composition and oxidation state of milk. 5. Determine secondary metabolites of honey responsible for the antioxidant capacity of these. 6. To evaluate the total antioxidant capacity unifloral honey. This project will provide knowledge about characteristics of oxidative pathways of proteins in complex matrices that can be used to design production strategies aimed at reduce the deterioration of milk quality. Also, it would help to discern the paradox that exists on the oxidants/antioxidants properties of polyphenols and the relationship between these and the oxidative status of a food.
