Isolamento de coliformes, estafilococos e enterococos de leite cru provenientes de tanques de refrigeração por expansão comunitários: identificação, ação lipolítica e proteolítica

O isolamento e a identificação de microrganismos em leite cru se tornam interessantes do ponto de vista de saúde pública, pois dependendo das espécies isoladas, ações direcionadas podem ser tomadas visando a melhoria de sua qualidade. A deterioração do leite é conseqüência sobretudo do crescimento de microrganismos psicrotróficos, que produzem lipases e proteases termoestáveis que não são desnaturadas durante o processo de pasteurização, conferindo sabores e odores rançoso e amargo, respectivamente. Assim, o objetivo deste trabalho foi isolar e identificar os principais gêneros de bactérias pertencentes à família Enterobacteriaceae, Gram-negativas oxidase positiva, gêneros Staphylococcus e Enterococcus, bem como atividade de lipases e proteases de 16 propriedades rurais do município de Boa Esperança-MG. As bactérias Gram-negativas foram isoladas em ágar eosina azul de metileno (EMB) e ágar Entérico Hektoen. Estafilococos foram isolados em ágar Baird-Parker e Enterococcus em ágar KF. Colônias de interesse foram coletadas e submetidas à coloração de Gram, e às provas de catalase e oxidase. Após esses procedimentos, os isolados selecionados foram identificados utilizando-se Bactray I, II e III; Api 20 Strep; e provas sugeridas pelo Bergey's Manual of Determinative Bacteriology. A identificação sorológica de Enterococcus foi realizada utilizando-se Prolex. O leite oriundo das 16 propriedades continha cepas de microrganismos fecais como Escherichia coli e Enterococcus do grupo D de Lancefield. Bactérias Gram-negativas oxidase positiva foram identificadas em cinco propriedades. Staphylococcus foram encontrados em 10 propriedades. O leite coletado nas fazendas investigadas possui microrganismos que comprometem sua qualidade. Todos os grupos de microrganismos testados revelaram atividades de lipase e protease.

Imobilização de lipases produzidas por fermentação em estado sólido utilizando Penicillium verrucosum em suportes hidrofóbicos

O principal interesse em imobilizar uma enzima é obter um biocatalisador com atividade e estabilidade que não sejam afetadas durante o processo, em comparação à sua forma livre. Aliado ao potencial biotecnológico que as lipases apresentam, a aplicação destas em nível industrial requer a investigação de técnicas viáveis para reutilização e aumento da estabilidade, conferindo relevância aos processos de imobilização. Neste trabalho investigou-se a imobilização da lipase produzida por fermentação em estado sólido utilizando Penicillium verrucosum em dois suportes hidrofóbicos; Accurel EP 1000 e Carvão Ativo. Para a imobilização das lipases foi adicionado 1 g de suporte a 50 mL de uma solução enzimática, estes permaneceram em contato por 2 horas em banho de gelo. Depois de decorrido este tempo, a solução foi filtrada e a enzima imobilizada colocada em dessecador por 48 horas e então feita a medida da atividade lipásica, proteína e cálculo da atividade específica. Através dos resultados obtidos, verificou-se que lipase imobilizada em carvão ativo apresentou valores de atividade específica superiores aos obtidos quando da utilização de Accurel EP 1000 como suporte. Utilizando carvão ativo como suporte, a atividade específica foi de 1533422,5 U/mg de proteína, rendimento de 30,4% e retenção de 382,5%.

Physical properties of structured lipids from lard and soybean oil produced by enzymatic interesterification

The main goal of the present research was to evaluate the physical properties of blends of lard and soybean oil modified by enzymatic interesterification catalyzed by two different commercial (microbial) lipases, viz. from Candida cylindracea (AY30TM) and from Mucor circinelloides (M10TM). Pure lard exhibited a softening point of ca. 31.8 °C before interesterification, and this value shifted towards 29.1 °C after interesterification by AY30 lipase and towards 28.8 °C after interesterification by M10 lipase The interesterified lard exhibited lower consistency after reaction with both lipases, and this decrease was more pronounced for the reaction catalyzed by M10 lipase. This result was most likely due to the sn-1,3-specificity of M10 lipase. Pure lard displayed a lower SFC after interesterification, and M10 lipase proved to be more effective than AY30 lipase. The non-interesterified lard had a SFC of 31.3% at 10 °C, which was reduced to 23.8 and 19.9% after interesterification with AY30 lipase and M10 lipase, respectively. The lard and soybean oil blends were affected by the enzymatic interesterification and dilution with soybean oil.

Chemical and biochemical characterization of soybean produced under drought stress

Brazil is the second soybean (Glycine max L. Merrill) producer and exporter in the world. In 2005, soybean cultivated in the southeastern region of the country suffered drought stress imposed by adverse high temperatures and low humidity during its reproductive stage. Little information is available regarding the effect of drought stress on the quality of grains. In this study chemical and biochemical characteristics of five soybean samples belonging to three different cultivars grown under drought stress were evaluated. The samples did not meet standards for marketing and contained high amounts of green seeds. Grains were analyzed for appearance, 100 seed weight, humidity, water activity, proteins, lipids, lipoxygenase 1 activity, peroxides, and pigment contents after harvest and after 20 months of storage at room temperature. Acidity was measured also after 30 months of storage. The values of water activity and humidity were 0.6-0.7 and 8.7-11.9%, respectively, and they did not change during storage time, but there was an increase in acidity, which alludes to lipase activity. The activity of lipoxygenase 1 was greatly affected. Immediately after harvest, the green pigments were represented mainly by pheophytin a, followed by pheophytin b, small quantities of chlorophyll b and chlorophyll a, and traces of other chlorophyll derivatives. After 20 months of storage almost all green pigments had disappeared. Drought stress probably enhanced membrane permeability, which led to a lower pH and promoted transformation of chlorophylls to pheophytins.

Obtenção de ácidos graxos por cristalização do óleo de pescado fracionado por hidrólise enzimática

Este trabalho teve por objetivo estabelecer um processo para obter e caracterizar os produtos da cristalização das frações do óleo de pescado hidrolisado com lipase pancreática. A hidrólise enzimática foi realizada em 60 minutos com uma concentração de substrato de 1262 mmols, 38 °C, pH 8 e com uma concentração de extrato enzimático de 7,647 mg.mL-1. Os produtos da hidrólise foram separados por cromatografia em coluna e caracterizados por cromatografia em camada delgada e cromatografia em fase gasosa. A temperatura de cristalização foi controlada entre 5 °C e -18 °C. A fração TAG foi melhor cristalizada a 0 °C enquanto que as frações DAG + AGL e MAG foram cristalizadas a 5 °C. Foi observado que o ácido docosahexaenoico (DHA) concentra-se na fase líquida da fração DAG + AGL representando 97,17% em relação ao óleo de pescado. O ácido palmítico foi cristalizado na fração DAG, perfazendo aproximadamente 50% do total de ácidos graxos. Foi observado que os ácidos graxos insaturados de cadeia longa, principalmente o EPA, concentram-se na fase sólida da fração TAG, esses resultados sugerem que o processo combinado de hidrólise enzimática seguido de cristalização possibilita a obtenção destes ácidos graxos do óleo de pescado.

Stability and microbiological quality of rice bran subjected to different heat treatments

Rice bran is a byproduct commonly used for animal feeding; however its nutritional value and potential application in human diet have attracted market interest. Its preservation for safe use is still a challenge, so the objective of this study was to determine the quality of commercially available rice bran samples subjected to different heat treatments (extruding, parboiling, toasting, and microwave oven heating) in order to promote stabilization during storage under room temperature. Rice bran samples were collected from two industries, and each treatment was divided in three parts, each corresponding to three repetitions. All samples were evaluated for moisture content, total microorganisms, mold and yeast counting, hydrolytic rancidity, and lipase activity during 90 days of storage. Most of the heat treatments, including domestic and thermoplastic extrusion, generated products which may be used for human consumption under the tested conditions in terms of physicochemical and microbiological quality. The domestic treatments were more efficient in eliminating microorganisms or keeping them within acceptable limits. The toasted rice bran showed satisfactory results in terms of moisture, hydrolytic rancidity control, and lipase activity.

Isolation and characterization of bacterial strains with a hydrolytic profile with potential use in bioconversion of agroindustial by-products and waste

There is a trend towards the use of novel technologies nowadays, mainly focused on biological processes, for recycling and the efficient utilization of organic residues that can be metabolized by different microorganisms as a source of energy. In the present study the isolation of bacterial strains from six different agro-industrial by-products and waste was performed with the objective of evaluating their hydrolytic capacities and suitability for use in bioconversion of specific substrates. The 34 isolated strains were screened in specific culture media for the production of various hydrolytic enzymes (lipase, protease, cellulase, and amylase). It was found that 28 strains exhibited proteolytic activity, 18 had lipolytic activity, 13 had caseinolytic activity, 15 had amylolytic activity, and 11 strains exhibited cellulolytic activity. The strains that showed the highest hydrolytic capacities with biotechnological potential were selected, characterized genotipically, and identified as Bacillus, Serratia, Enterococcus, Klebsiella, Stenotrophomonas, Lactococcus, and Escherichia genera. It was concluded that the strain isolates have a high potential for use in the bioconversion of agro-industrial waste, both as a pure culture and as a microbial consortium.

Adhesion and production of degrading enzymes by bacteria isolated from biofilms in raw milk cooling tanks

Biofilms in milk cooling tanks compromise product quality even on farms. Due to the lack of studies of this topic, this study evaluated the microbiological conditions of raw milk cooling tanks on farms and characterized the microorganisms isolated from these tanks. Samples were wiped off with sterile swabs from seven milk cooling tanks in three different points in each tank. Mesophiles and psychrotrophic counts were performed in all samples. The isolation of Pseudomonas spp., Bacillus cereus and atypical colonies formed on selective media were also performed, totalizing 297 isolates. All isolates were tested for protease and lipase production and biofilm formation. Of the total isolates, 62.9% produced protease, 55.9% produced lipase, and 50.2% produced biofilm. The most widespread genus inside the milk cooling tank was Pseudomonas since it was not possible to associate this contamination with a single sampling point in the equipment. High counts of microorganisms were found in some cooling tanks, indicating poor cleaning of the equipment and providing strong evidences of microbial biofilm presence. Moreover, it is worth mentioning the milk potential contamination with both microbial cells and their degrading enzymes, which compromises milk quality.