ABSTRACT
The efficient production of lignocellulolytic enzyme systems is an important support for large-scale biorefinery of plant biomass. On-site production of lignocellulolytic enzymes could increase the economic benefits of the process by lowering the cost of enzyme usage. Penicillium species are commonly found lignocellulose-degrading fungi in nature, and have been used for industrial production of cellulase preparations due to their abilities to secrete complete and well-balanced lignocellulolytic enzyme systems. Here, we introduce the reported Penicillium species for cellulase production, summarize the characteristics of their enzymes, and describe the strategies of strain engineering for improving the production and performance of lignocellulolytic enzymes. We also review the progress in fermentation process optimization regarding the on-site production of lignocellulolytic enzymes using Penicillium species, and suggest prospect of future work from the perspective of building a "sugar platform" for the biorefinery of lignocellulosic biomass.
Subject(s)
Biomass , Cellulase/metabolism , Fermentation , Fungi/metabolism , Lignin/metabolism , PenicilliumABSTRACT
Abstract Production of lignocellulolytic enzymes by filamentous fungi have a great potential at industrial level due to their widespread applications. Mixed fungal cultures and particularly mixed fungal biofilms constitute a promising fermentation system for an enhanced enzyme production. However, it has not been addressed how much of this enhancement depends on the mixed biomass proportion. In this sense, the aim of this study was to develop a method to specifically and accurately quantify mixed fungal biomass. For this purpose, mixed biofilm cultures composed of Aspergillus niger and Trichoderma reesei, two filamentous fungi used industrially for cellulase production, were collected from 48 to 120 h of growth; mycelia were pulverized, and DNA was extracted for qPCR assays with specific primers for each fungus. Primers were designed from non-conserved regions of sequences of actin and β-tubulin genes of both A. niger and T. reesei. Specificity of these primers was tested in silico and experimentally. A statistically significant correlation was obtained between qPCR-calculated biomass and dry weight biomass data. By this method, it was possible to detect changes on mycelia proportions in biofilms over time, suggesting a competitive interaction between these two fungi. In conclusion, this method allows a specific and accurate quantification of mixed fungal biomass and could be also applied to different mixed culture systems for studying microbial interactions.
Resumen La producción de enzimas lignocelulolíticas por hongos filamentosos tiene un gran potencial a nivel industrial debido a sus diversas aplicaciones. Los cultivos fúngicos mixtos y particularmente las biopelículas fúngicas mixtas constituyen un sistema de fermentación prometedor para una mayor producción enzimática. Sin embargo, no se ha abordado cuánto de esta mejora depende de la proporción de biomasa mixta. En este sentido, el objetivo de este estudio fue desarrollar un método para cuantificar de forma específica y precisa la biomasa fúngica mixta. Para este propósito, se recolectaron cultivos mixtos de biopelículas de 48 a 120 h de crecimiento compuestos por Aspergillus niger y Trichoderma reesei, dos hongos filamentosos utilizados industrialmente para la producción de celulasas; el micelio se pulverizó y el ADN se extrajo para ensayos de qPCR con cebadores específicos para cada hongo. Los cebadores se diseñaron a partir de regiones no conservadas de las secuencias de los genes de actina y β-tubulina de A. niger y T. reesei. La especificidad de estos cebadores se probó in silico y experimentalmente. Se obtuvo una correlación estadísticamente significativa entre la biomasa calculada mediante qPCR y los datos de biomasa en peso seco. Mediante este método, fue posible detectar cambios en las proporciones de los micelios en las biopelículas a lo largo del tiempo, lo que sugiere una interacción competitiva entre estos dos hongos. En conclusión, este método permite una cuantificación específica y precisa de la biomasa fúngica mixta y también podría aplicarse a diferentes sistemas de cultivo mixto para estudiar interacciones microbianas.
ABSTRACT
Floriculture is a vital agro-industrial sector in the Colombian economy; the export of flowers positively impacts employment and the balance of trade. However, this industry could negatively impact the environment if its waste products are not handled properly. These flower residues, rich in lignin, hemicellulose and cellulose, could be a cost-effective raw material to produce enzymes. Here, we evaluate the production of lignocellulolytic enzymes by degradation of Chrysanthemum and Rosa residues using Pleurotus ostreatus, and manganese sulfate and copper sulfate as inductors. From the two residues, we obtained laccase, manganese peroxidase, endoglucanase, exoglucanase, and (3-glucosidase. The use of inductors, favored all enzyme activities except for (3-glucosidase. The enzymes that displayed the highest activity were laccase (4,693.4 U/L and 2,640 U/L from the residues of Chrysanthemum and Rosa, respectively) and (3-glucosidase (9,513 U/L and 6,811.9 U/L). The enzyme that showed the lowest activity was endoglucanase (11.5 U/L and 15.4 U/L). Under the conditions evaluated, the best substrate for enzyme production is Chrysanthemum wastes; the extracts obtained had higher enzymatic activity than the extracts from Rosa residues.
En Colombia la floricultura es un sector agro-industrial importante, con impactos positivos en el empleo y la balanza comercial. Sin embargo, tiene impacto negativo en el medio ambiente porque genera alto volumen de residuos. Estos residuos, ricos en lignina, hemicelulosa y celulosa, podrían ser una materia prima de bajo costo para la producción de enzimas. En este trabajo se estudió en la producción de enzimas lignocelulíticas por la degradación con Pleurotus ostreatus de residuos de Chrysanthemum y Rosa, usando como inductores sulfato de manganeso y de cobre. A partir de ambos residuos se obtuvieron lacasa, manganeso peroxidasa, endoglucanasa, exoglucanasa y p-glucosidasa. Los inductores favorecieron todas las actividades enzimáticas, excepto para p-glucosidasa. Las enzimas que tuvieron mayores actividades fueron lacasa (4,693.4 U/L y 2,640 U/L a partir del residuo de Chrysanthemum y Rosa, respectivamente) y p-glucosidasa (9,513 U/L y 6,811.9 U/L). La enzima que tuvo menor actividad fue endoglucanasa (11.5 U/L y 15.4 U/L). Bajo las condiciones evaluadas, el mejor residuo para producción de enzimas fue Chrysanthemum, porque los extractos tuvieron mayor actividad enzimática que los producidos a partir de Rosa.
Na Colombia, a floricultura è um importante setor da indùstria agrícola, com impactos positivos sobre o sector laboral na balança comercial. Além disto, tem impacto negativo sobre o meio ambiente, pois gera grandes volumes de resíduos. Estes resíduos, com altos conteùdos em lignina, hemicelulose e celulose, podem ser uma matèria-prima de baixo custo para a produçâo de enzimas. Neste traballio foi estudada a produçâo da enzimas lignoceluliticas pela degradaçâo com Pleurotus ostreatus de residuos de Chrysanthemum e Rosa, utilizando como indutores sulfatos de cobre e manganês. A partir destes resíduos foram obtidos lacase, manganês peroxidase, endoglucanase, exoglucanase e β-glicosidase. O uso de indutores favoreceu as atividades enzimáticas, exceto β-glicosidase. As enzimas que apresentaram atividades mais elevadas foram lacase (4,693.4 U/L e 2,640 U/L a partir do Chrysanthemum e Rosa, respetivamente) e β-glicosidase (9,513 U/L e 6,81.9 U/L). A enzima que apresentou menor atividade foi a endoglucanase (11.5 U/L e 15.4 U/L). Nas condiçôes testadas, o melhor resíduo para a produçâo da enzima foi Chrysanthemum, porque os extratos tinham uma atividade enzimática mais elevada que aqueles produzidos a partir de Rosa.
ABSTRACT
This study was conducted in order to perform efficient extraction of lignocellulolytic enzymes amylase (EC 3.2.1.1), cellulase (EC 3.2.1.4), laccase (EC 1.10.3.2), and xylanase (EC 3.2.1.8) from spent mushroom compost (SMC) of Pleurotus ostreatus, P. eryngii, and P. cornucopiae. Optimal enzyme recovery was achieved when SMCs were extracted with 50 mM sodium citrate (pH 4.5) buffer at 4degrees C for 2 hr. Amylase, cellulase, and xylanase activities showed high values in extracts from P. ostreatus SMC, with 2.97 U/g, 1.67 U/g, and 91.56 U/g, respectively, whereas laccase activity and filter paper degradation ability were highest in extracts from P. eryngii SMC, with values of 9.01 U/g and 0.21 U/g, respectively. Enzymatic activities varied according to the SMCs released from different mushroom farms. The synthetic dyes remazol brilliant blue R and Congo red were decolorized completely by the SMC extract of P. eryngii within 120 min, and the decolorization ability of the extract was comparable to that of 0.3 U of commercial laccase. In addition, laccase activity of the SMC extract from P. eryngii was compared to that of commercial enzymes or its industrial application in decolorization.
Subject(s)
Agaricales , Amylases , Cellulase , Citric Acid , Coloring Agents , Congo Red , Laccase , Ostreidae , Pleurotus , Sodium , SoilABSTRACT
The aim of this work was to evaluate the potential of grape stalks, an agroindustrial waste, for growth and lignocellulolytic enzyme production via solid-state fermentation, using the following three white rot fungi: Trametes trogii, Stereum hirsutum and Coriolus antarcticus. The decolorization of several dyes by the above mentioned cultures was also investigated. Similar values of dry weight loss of the substrate were measured after 60 days (33-43 %). C. antarcticus produced the highest laccase and Mn-peroxldase activities (33.0 and 1.6 U/g dry solid). The maximum endoglucanase production was measured in S. hirsutum cultures (10.4 U/g), while the endoxylanase peak corresponded to T. trogii (14.6 U/g). The C. antarcticus/grape stalk system seems potentially competitive in bioremediation of textile processing effluents, attaining percentages of decolorization of 93, 86, 82, 82, 77, and 58 % for indigo carmine, malachite green, azure B, remazol brilliant blue R, crystal violet and xylidine, respectively, in 5 h.
El objetivo de este trabajo fue evaluar el potencial del escobajo, un residuo agroindustrial, como sustrato para el crecimiento y la producción de enzimas lignocelulósicas de tres hongos causantes de pudrición blanca en la madera: Trametes trogii, Stereum hirsutum y Coriolus antarcticus. Para ello se utilizaron técnicas de fermentación en estado sólido. También se ensayó la decoloración de colorantes industriales sobre estos cultivos. La pérdida de peso seco del sustrato fue similar después del día 60 (33-43 %). C. antarcticus produjo las mayores actividades de lacasa y Mn-peroxidasa (33,0 y 1,6 U/g peso seco). La mayor actividad endoglucanasa fue medida en cultivos de S. hirsutum (10,4 U/g), y la mayor actividad endoxilanasa en T. trogii (14,6 U/g). El sistema C. antarcticus/escobap mostró un importante potencial para su aplicación en la biorremediación de efluentes textiles, con porcentajes de decoloración de 93, 86, 82, 82, 77 y 58 % para índigo carmín, verde de malaquita, azure B, azul R brillante de remazol, cristal violeta y xilidina, respectivamente, en 5 h.
Subject(s)
Biodegradation, Environmental , Basidiomycota/growth & development , Cellulase/isolation & purification , Coloring Agents/metabolism , /isolation & purification , Fungal Proteins/isolation & purification , Industrial Waste , Industrial Microbiology/methods , Laccase/isolation & purification , Lignin/metabolism , Peroxidases/isolation & purification , Plant Stems/microbiology , Vitis/microbiology , Argentina , Basidiomycota/enzymology , Cellulase/metabolism , Coloring Agents/classification , Coriolaceae/enzymology , Coriolaceae/growth & development , /metabolism , Fermentation , Fungal Proteins/metabolism , Laccase/metabolism , Peroxidases/metabolism , Trametes/enzymology , Trametes/growth & developmentABSTRACT
A preliminary investigation was conducted to assess lignocellulolytic efficiency of crude extracts from three white-rot fungi, Pleurotus florida PF05 (PF), Pleurotus sajor-caju PS07 (PS) and Pleurotus eryngii PE08 (PE). The activities of CMC-ase, xylanase, b-glucosidase, b-xylosidase, laccase and Mn peroxidase in extracts were evaluated. PF produced its highest CMC-ase (317 UL-1), b-glucosidase (62 UL-1), b-xylosidase (37 UL-1) and laccase (347 UL-1) activities while, PS produced highest xylanase (269 UL-1) and Mn peroxidase (69 UL-1) activities. In addition, crude extracts extracted were employed for their in vitro degradability assessment; and were evaluated with mono and mixed extracts separately to corn cob substrate. The losses in cell wall components and dry matter during 5 and 10 days incubations were analyzed after treatments of extracts. Maximum 8.2, 4.4 and 2.8% loss were found respectively in hemicellulose (HC), cellulose (C) and lignin (L) with mono extract of PF within 10 days. The influence of mono extract of each strain (PF, PS and PE) and their mixed extracts (PF+PS, PF+PE, PS+PE and PF+PS+PE) on degradation of cell wall constituents were remarkably differed. The mixed extract treatment proved maximum 13.6% HC loss by PF+PS+PE extract, 9.2% loss in C by PF+PS extract and 5.2% loss of L by the PF+PS+PE extract treatment. The highest dry matter loss (8.2%) was recorded with PF+PS+PE mixed extract combination.