Selected lactobacilli and bifidobacteria development in solid state fermentation using soybean paste.

At present, consumers are looking for more natural foods so as to improve health through their active compounds. Within this context, soybean is an excellent substrate due to its beneficial effects on consumers' health. Moreover, lactic cultures are widely used in the food industry to improve the technological, nutritional and functional characteristics of fermented foods. It is interesting to find new matrices in which to transport these starter cultures (potentially probiotic microorganisms). The aim of this research was to obtain a solid state fermentation system from soybean to analyze the behavior of selected lactobacilli and bifidobacteria, with the potential to develop a functional vegetarian food to serve as carrier for the microorganisms. A soybean solid substrate system was optimized by selecting the relationship of the main processing parameters. Homogeneous soybean pastes with different moisture content (60-80%) were obtained and used as substrate and support for solid substrate fermentation. Moisture, inoculum size and temperature were optimized: 80%, 4%, 37°C, respectively. L. rhamnosus CRL 981 was chosen as the best starter to use in this kind of fermentation, showing high acidification and cell counts at 24h of fermentation and increased specific growth rate in tested soybean pastes. It was demonstrated that the selected soybean paste could be used as a carrier of these microorganisms having probiotic potential for the production of vegetarian foods. Moreover, these microorganisms are able to modify the substrate to enhance their nutritional and functional characteristics, which would change the soybean into a more attractive product for consumers.

Selected lactobacilli and bifidobacteria development in solid state fermentation using soybean paste / Desarrollo de lactobacilos y bifidobacterias seleccionadas en fermentación en estado sólido utilizando pasta de soja

At present, consumers are looking for more natural foods so as to improve health through their active compounds. Within this context, soybean is an excellent substrate due to its beneficial effects on consumers' health. Moreover, lactic cultures are widely used in the food industry to improve the technological, nutritional and functional characteristics of fermented foods. It is interesting to find new matrices in which to transport these starter cultures (potentially probiotic microorganisms). The aim of this research was to obtain a solid state fermentation system from soybean to analyze the behavior of selected lactobacilli and bifidobacteria, with the potential to develop a functional vegetarian food to serve as carrier for the microorganisms. A soybean solid substrate system was optimized by selecting the relationship of the main processing parameters. Homogeneous soybean pastes with different moisture content (60-80%) were obtained and used as substrate and support for solid substrate fermentation. Moisture, inoculum size and temperature were optimized: 80%, 4%, 37 °C, respectively. L. rhamnosus CRL 981 was chosen as the best starter to use in this kind of fermentation, showing high acidification and cell counts at 24 h of fermentation and increased specific growth rate in tested soybean pastes. It was demonstrated that the selected soybean paste could be used as a carrier of these microorganisms having probiotic potential for the production of vegetarian foods. Moreover, these microorganisms are able to modify the substrate to enhance their nutritional and functional characteristics, which would change the soybean into a more attractive product for consumers.

Actualmente los consumidores están en la búsqueda de alimentos naturales, a fin de mejorar la salud a través de sus compuestos activos. En este contexto, la soja es un excelente sustrato debido a sus efectos beneficiosos sobre la salud del consumidor. En la industria alimentaria se emplean cultivos lácticos para mejorar las características tecnológicas, nutricionales y funcionales de los alimentos fermentados. Es interesante encontrar nuevas matrices para transportar estos cultivos iniciadores, que potencialmente son microorganismos probióticos. El objetivo de este estudio fue obtener un sistema de fermentación en estado sólido a partir de soja para analizar el comportamiento de lactobacilos y bifidobacterias seleccionadas, con potencial para desarrollar un alimento vegetariano funcional que sirva de portador de los microorganismos. El sistema de sustrato sólido de soja se optimizó mediante la selección de la relación de parámetros principales de procesamiento. Se obtuvieron pastas de soja homogéneas con diferente contenido humedad (60-80%) y se utilizaron como sustrato y soporte para la fermentación en sustrato sólido. Las variables humedad, tamaño del inóculo y temperatura fueron optimizadas en 80%, 4% y 37°C, respectivamente. Lactobacillus rhamnosus CRL 981 fue elegido como el mejor cultivo iniciador para utilizar en este tipo de fermentación; este mostró acidificación y recuentos celulares altos en 24 horas de fermentación, y mayor velocidad específica de crecimiento en las condiciones evaluadas. Se demostró que la pasta de soja seleccionada podría ser utilizada como portadora de estos microorganismos con potencial probiótico para la elaboración de alimentos vegetarianos. Además, estos microorganismos son capaces de modificar el sustrato y mejorar sus características nutritivas y funcionales, lo que convertiría a la soja en un producto más atractivo para los consumidores.

Aglycone production by Lactobacillus rhamnosus CRL981 during soymilk fermentation.

Lactobacillus rhamnosus CRL981 showed the highest levels of beta-glucosidase and was selected to characterize this enzyme system, among 63 strains of different Lactobacillus species. The maximum activity was obtained at pH 6.4 and 42 degrees C. The enzyme showed weak resistance to thermal inactivation maintaining only 20% of the initial activity when it was exposed at 50 degrees C for 5 min. It also, showed stability when stored at 4 degrees C for 60 days. Afterwards, L. rhamnosus was evaluated for hydrolysis of isoflavones to aglycones, cell population, residual sugars and organic acid produced during fermentation on soymilk (37 degrees C for 24 h). Higher viable counts were obtained after 12 h of fermentation (8.85 log CFUml(-1)) followed by a drop of pH and an increase of acidity during fermentation due the production of organic acids. L. rhamnosus CRL981 was able to proliferate in soymilk and produce a high beta-glucosidase activity achieving a complete hydrolysis of glucoside isoflavones after 12 h of fermentation. The present study indicates that L. rhamnosus CRL981 could be used in the development of different aglycone-rich functional soy beverages.

Biological activity of Bifidobacterium longum in response to environmental pH.

The influence of environmental pH on biological activity of Bifidobacterium longum CRL 849 grown in MRS-raffinose was evaluated. At pH 6.0, 5.5 and 5.0, raffinose was completely consumed by this microorganism, showing different consumption rates at each pH value (between 3.03 and 0.76 mmol l(-1) h(-1)). At pH 4.5, the growth was lowest. The removal of raffinose was due to the alpha-galactosidase (alpha-gal) activity of this bifidobacteria, which was highest at pH 6.0-5.5 (1,280-1,223 mU ml(-1)). The production of beta-glucosidase (beta-glu) showed a similar pattern to alpha-gal activity with major values. The yield of organic acids produced during raffinose consumption was also highest at pH 6.0-5.5. The results of this study will allow the selection of the optimum growth conditions of B. longum CRL 849, with elevated levels of alpha-gal to be used in the reduction of nondigestible alpha-oligosaccharide in soy products and beta-glu activities involved in isoflavone conversion to bioactive forms when used as starter culture.