Pleurotus ostreatus fungus forms an edible mushroom that possesses important nutritional and medicinal properties. Selenium (Se) is essential to human diets and it is in low concentration in the soil, and consequently in food. P. ostreatus was grown in coffee husks enriched with various concentrations of sodium selenite. The biological efficiency of P. ostreatus was affected by the addition of high concentrations of Se. The highest level of Se absorption was obtained by adding 51 mg kg 1 of sodium selenite. The mushrooms from first flush contained more Se than the further flushes. These results demonstrate the great potential of coffee husks in the production of Se-enriched mushrooms and show the ability of this fungus to absorb and biomagnify Se.
Raw bovine milk is highly nutritious as well as pH-neutral, providing the ideal conditions for microbial growth. The microbiota of raw milk is diverse and originates from several sources of contamination including the external udder surface, milking equipment, air, water, feed, grass, feces, and soil. Many bacterial and fungal species can be found in raw milk. The autochthonous microbiota of raw milk immediately after milking generally comprises lactic acid bacteria such as Lactococcus, Lactobacillus, Streptococcus, and Leuconostoc species, which are technologically important for the dairy industry, although they do occasionally cause spoilage of dairy products. Differences in milking practices and storage conditions on each continent, country and region result in variable microbial population structures in raw milk. Raw milk is usually stored at cold temperatures, e.g., about 4°C before processing to reduce the growth of most bacteria. However, psychrotrophic bacteria can proliferate and contribute to spoilage of ultra-high temperature (UHT) treated and sterilized milk and other dairy products with a long shelf life due to their ability to produce extracellular heat resistant enzymes such as peptidases and lipases. Worldwide, species of Pseudomonas, with the ability to produce these spoilage enzymes, are the most common contaminants isolated from cold raw milk although other genera such as Serratia are also reported as important milk spoilers, while for others more research is needed on the heat resistance of the spoilage enzymes produced. The residual activity of extracellular enzymes after high heat treatment may lead to technological problems (off flavors, physico-chemical instability) during the shelf life of milk and dairy products. This review covers the contamination patterns of cold raw milk in several parts of the world, the growth potential of psychrotrophic bacteria, their ability to produce extracellular heat-resistant enzymes and the consequences for dairy products with a long shelf life. This problem is of increasing importance because of the large worldwide trade in fluid milk and milk powder.
RESUMOA estocagem do leite cru refrigerado na fonte de produção reduz perdas econômicas por atividade acidificante de bactérias mesofílicas, mas permite a seleção de bactérias psicrotróficas relacionadas a problemas tecnológicos e econômicos na indústria de laticínios. Com o objetivo de avaliar a qualidade microbiológica de leite cru, foram analisadas amostras provenientes de tanques de refrigeração individual, coletivos e do silo de uma indústria processadora de leite. Além disso, bactérias psicrotróficas proteolíticas foram isoladas do leite cru refrigerado e caracterizadas quanto à reação ao Gram e fermentação de glicose. O leite cru refrigerado mantido no silo industrial não atendeu ao padrão microbiológico legal e apresentou contagens microbianas significativamente superiores às do leite mantido em tanques individuais ou coletivos. Diferença significativa na contaminação por mesófilos e psicrotrófilos proteolíticos e não proteolíticos e por Pseudomonas foi observada entre as amostras coletadas nos tanques de refrigeração e no silo industrial. A microbiota Gram-negativa foi isolada com maior freqüência, especialmente bactérias Gram-negativas não fermentadoras de glicose. Palavras-chave: leite refrigerado, microbiota psicrotrófica, qualidade microbiológica. SUMMARYMICROBIAL QUALITY OF RAW REFRIGERATED MILK AND ISOLATION OF PSYCHROTROPHIC PROTEOLYTIC BACTERIA. Storing refrigerated raw milk in the source of production reduces economic losses which occur due to the acidifying activity of mesophilic bacteria. Nevertheless, this process selects psychrotrophic bacteria that cause technological and economic problems to the dairy industry. Samples of individual and collective refrigerated tanks and samples from an industrial silo in a dairy industry were collected and analyzed to evaluate the microbiological quality of raw milk. Furthermore, proteolytic psychrotrophic bacteria were isolated from refrigerated raw milk and characterized according to the Gram reaction and glucose fermentation. The refrigerated raw milk from the industrial silo was not compatible with legal microbiological standards, and its microbial count was significantly higher than milk from individual and collective tanks. A significant difference of contamination by mesophiles, proteolytic and non-proteolytic psychrotrophs, and Pseudomonas was observed in samples collected from refrigeration tanks compared to samples collected from the industrial silo. The Gram-negative microbiota was isolated more often, especially the glucose non-fermentative Gram-negative bacteria.
Bacteriocins are ribosomally synthesized peptides that have bacteriostatic or bactericidal effects on other bacteria. The use of bacteriocins has emerged as an important strategy to increase food security and to minimize the incidence of foodborne diseases, due to its minimal impact on the nutritional and sensory properties of food products. Gramnegative bacteria are naturally resistant to the action of bacteriocins produced by Gram-positive bacteria, which are widely explored in foods. However, these microorganisms can be sensitized by mild treatments, such as the use of chelating agents, by treatment with plant essential oils or by physical treatments such as heating, freezing or high pressure processing. This sensitization is important in food microbiology, because most pathogens that cause foodborne diseases are Gram-negative bacteria. However, the effectiveness of these treatments is influenced by several factors, such as pH, temperature, the composition of the food and target microbiota. In this review, we comment on the main methods used for the sensitization of Gram-negative bacteria, especially Salmonella, to improve the action of bacteriocins produced by Gram-positive bacteria.
The capability of Pleurotus ostreatus mushroom to accumulate lithium (Li) and the accessibility of this Li compared with lithium carbonate (Li(2)CO(3)), often used as psychiatric medicine, were investigated. Mushrooms were produced on a substrate-based on coffee husk, with different added concentrations of lithium chloride (LiCl). Biological efficiency (BE), the crude protein content, the concentration of Li and other elements present in mushrooms were determined. The sequential extraction and in vitro test were used to verify the accessibility and the degree of solubility of this element. Li concentration in mushrooms was directly influenced by increasing LiCl concentration in the substrate (P<0.05). The BE was not affected by different concentrations of LiCl. Li present in enriched mushrooms showed greater accessibility than in Li(2)CO(3). Therefore, P. ostreatus mushrooms, enriched with lithium can be an alternative source of Li, as well as being a food with high nutritional value.
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