RESUMO
The purpose of the present work is to fabricate emulsions with excellent stability to deliver ß-carotene using a novel biomacromolecule. ß-Lactoglobulin-ferulic acid-chitosan ternary conjugate (BFCC), which was synthesized based on the carbodiimide-mediated coupling reaction and laccase induction, was confirmed by Fourier transform infrared (FTIR) and proton nuclear magnetic resonance (1H NMR) spectra. Also, BFCC was used to stabilize ß-carotene emulsions. The results indicated that the concentration of BFCC affected the physical stability of ß-carotene emulsions. Compared with the emulsions stabilized by ß-lactoglobulin (ß-LG), chitosan-ferulic acid conjugate (CFC), and ß-LG-CFC mixture (BFCM), the emulsion stabilized by BFCC exhibited better stability under various environmental stresses. Moreover, the emulsion stabilized by BFCC had higher ß-carotene retention during storage at 25 and 55 °C or under ultraviolet (UV) light exposure. The knowledge acquired in the current research offered an effective way to develop novel biomacromolecular emulsifiers and could find potential in fabricating delivery systems for bioactive compounds with markedly enhanced physiochemical properties.
Assuntos
Quitosana/química , Ácidos Cumáricos/química , Lactoglobulinas/química , beta Caroteno/química , Fenômenos Químicos , Emulsões/químicaRESUMO
Production of second-generation bioethanol uses lignocellulose from agricultural by-products such as sugarcane bagasse (SCB). A lignocellulose pre-treatment is required to degrade lignin, ensuring further efficient saccharification. Two experimental designs were set up to define culture conditions of Pycnoporus sanguineus in mesocosms to increase laccase activities and thus delignification. The first experimental design tested the effect of phenolic complementation (via coffee pulp) and the use of urea as a simple nitrogen source and the second defined more precisely the percentages of coffee pulp and urea to enhance delignification. The responses measured were: lignocellulolytic activities, laccase isoform profiles by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and the chemical transformation of the substrate using solid-state NMR of 13C. Adding 10% of coffee pulp increased laccase activities and fungal biomass (32.5% and 16% respectively), enhanced two constitutive isoforms (Rf 0.23 and 0.27), induced a new isoform (Rf 0.19) and led to a decrease in total aromatics. However, higher concentrations of coffee pulp (25%) decreased laccase and cellulase activities but no decrease in aromaticity was observed, potentially due to the toxic effect of phenols from coffee pulp. Moreover, laccase production was still inhibited even for lower concentrations of urea (0-5%). Our findings revealed that an agricultural by-product like coffee pulp can enhance laccase activity -though to a threshold- and that urea limited this process, indicating that other N-sources should be tested for the biological delignification of SCB.
Assuntos
Celulase , Celulases , Pycnoporus , Saccharum , Celulose , Café , Lacase , Lignina , UreiaRESUMO
Cascas de café são fonte de carboidratos e nutrientes que podem ser bioconvertidos em produtos de interesse como enzimas. Lacases são cobre polifenol oxidases que oxidam compostos fenólicos, enquanto reduzem oxigênio molecular à água e; sua baixa especificidade a substratos permite sua aplicação em várias áreas como indústria têxtil, de alimentos e biorremediação. Os objetivos desse trabalho foram avaliar a capacidade de produção de lacase de três linhagens de fungos basidiomicetos (Lentinula edodes U6/1, Pleurotus ostreatus U6/9 e Pleurotus florida U6/10) por fermentação submersa com cascas de café e avaliar o uso de cobre como indutor dessa enzima. A casca de café mostrou ser um bom substrato para produção de lacases e das três linhagens testadas Pleurotus ostreatus (U6/9) foi a mais produtiva (22,5 U mL-1). A melhor fonte de nitrogênio para produção de lacases de Pleurotus ostreatus (U6/9) foi o extrato de levedura na concentração de 9 g/L (20 U mL-1). A adição de 150 µM de CuSO4 resultou na indução significativa na produção de lacases nessa linhagem (21 U mL-1)no 12° dia de cultivo.
Coffee husks are a source of carbohydrates and nutrients that may be bioconverted into products of interest, such as enzymes. Laccases are copper polyphenol oxidases that oxidize phenolic compounds while reducing molecular oxygen to water. Laccase?s low specificity to substrates allows its application in several areas such as textiles, food processing and bioremediation industries. The aims of this study were to evaluate the potential to produce laccase from three strains of basidiomycetous fungi (Lentinula edodes U6/1, Pleurotus ostreatus U6/9, and Pleurotus florida U6/10) by submerged fermentation with coffee husks, and to evaluate the use of copper as an inducer of the enzyme. Coffee husk proved to be a good substrate for laccase production, with Pleurotus ostreatus (U6/9) being the most productive strain (22.5 U mL-1). The best source of nitrogen for laccase production of Pleurotus ostreatus (U6/9) was yeast extract 9 g/L (20 U mL-1). The addition of CuSO4 (150 µM) resulted in significant induction of laccase (21 U mL-1) on the 12th day of cultivation.
Cáscaras de café son fuente de carbohidratos y nutrientes que pueden ser bioconvertidos en productos de interés, tales como enzimas. Lacases son cobre polifenol oxidasas que oxidan compuestos fenólicos, mientras reducen el oxígeno molecular a el agua y; su baja especificidad a sustratos permite su aplicación en diversas áreas, como la industria textil, de alimentos y de biorremediación. Los objetivos de este estudio fueron evaluar la capacidad de producción de lacase de tres linajes de hongos basidiomicetos (Lentinula edodes U6/1, Pleurotus ostreatus U6/9 y Pleurotus florida U6/10) por fermentación sumergida con cáscaras de café, y evaluar el uso del cobre como inductor de esta enzima. La cáscara de café resultó ser un buen sustrato para la producción de lacases y, de las tres linajes probadas, Pleurotus ostreatus (U6/9) fue la más productiva (22,5 U mL-1). La mejor fuente de nitrógeno para la producción de lacases de Pleurotus ostreatus (U6/9) fue el extracto de levadura a una concentración de 9 g L-1 (20 U mL-1). La adición de 150 µM de CuSO4 resultó en la inducción significativa de la producción de lacases en esa linaje (21 U mL-1), en el 12º día de cultivo.
RESUMO
Cascas de café são fonte de carboidratos e nutrientes que podem ser bioconvertidos em produtos de interesse como enzimas. Lacases são cobre polifenol oxidases que oxidam compostos fenólicos, enquanto reduzem oxigênio molecular à água e; sua baixa especificidade a substratos permite sua aplicação em várias áreas como indústria têxtil, de alimentos e biorremediação. Os objetivos desse trabalho foram avaliar a capacidade de produção de lacase de três linhagens de fungos basidiomicetos (Lentinula edodes U6/1, Pleurotus ostreatus U6/9 e Pleurotus florida U6/10) por fermentação submersa com cascas de café e avaliar o uso de cobre como indutor dessa enzima. A casca de café mostrou ser um bom substrato para produção de lacases e das três linhagens testadas Pleurotus ostreatus (U6/9) foi a mais produtiva (22,5 U mL-1). A melhor fonte de nitrogênio para produção de lacases de Pleurotus ostreatus (U6/9) foi o extrato de levedura na concentração de 9 g/L (20 U mL-1). A adição de 150 μM de CuSO4 resultou na indução significativa na produção de lacases nessa linhagem (21 U mL-1) no 12° dia de cultivo.
Coffee husks are a source of carbohydrates and nutrients that may be bioconverted into products of interest, such as enzymes. Laccases are copper polyphenol oxidases that oxidize phenolic compounds while reducing molecular oxygen to water. Laccases low specificity to substrates allows its application in several areas such as textiles, food processing and bioremediation industries. The aims of this study were to evaluate the potential to produce laccase from three strains of basidiomycetous fungi (Lentinula edodes U6/1, Pleurotus ostreatus U6/9, and Pleurotus florida U6/10) by submerged fermentation with coffee husks, and to evaluate the use of copper as an inducer of the enzyme. Coffee husk proved to be a good substrate for laccase production, with Pleurotus ostreatus (U6/9) being the most productive strain (22.5 U mL-1). The best source of nitrogen for laccase production of Pleurotus ostreatus (U6/9) was yeast extract 9 g/L (20 U mL-1). The addition of CuSO4 (150 μM) resulted in significant induction of laccase (21 U mL-1) on the 12th day of cultivation.
Cáscaras de café son fuente de carbohidratos y nutrientes que pueden ser bioconvertidos en productos de interés, tales como enzimas. Lacases son cobre polifenol oxidasas que oxidan compuestos fenólicos, mientras reducen el oxígeno molecular a el agua y; su baja especificidad a sustratos permite su aplicación en diversas áreas, como la industria textil, de alimentos y de biorremediación. Los objetivos de este estudio fueron evaluar la capacidad de producción de lacase de tres linajes de hongos basidiomicetos (Lentinula edodes U6/1, Pleurotus ostreatus U6/9 y Pleurotus florida U6/10) por fermentación sumergida con cáscaras de café, y evaluar el uso del cobre como inductor de esta enzima. La cáscara de café resultó ser un buen sustrato para la producción de lacases y, de las tres linajes probadas, Pleurotus ostreatus (U6/9) fue la más productiva (22,5 U mL-1). La mejor fuente de nitrógeno para la producción de lacases de Pleurotus ostreatus (U6/9) fue el extracto de levadura a una concentración de 9 g L-1 (20 U mL-1). La adición de 150 μM de CuSO4 resultó en la inducción significativa de Cáscaras de café son fuente de carbohidratos y nutrientes que pueden ser bioconvertidos en productos de interés, evadura a una concentración de 9 g L-1 (20 U mL-1). La adición de 150 μM de CuSO4 resultó en la inducción significativa de la producción de lacases en esa linaje (21 U mL-1), en el 12º día de cultivo.
