ABSTRACT
Lacases são polifenol oxidases que utilizam a capacidade redox de íons cobre para reduzir oxigênio a água e oxidar um substrato fenólico. A síntese e secreção de lacases de basidiomicetos dependem de vários fatores como os nutrientes presentes no meio de cultura. Visando à produção de lacase, Pycnoporus sanguineus foi cultivado em meio contendo melaço de soja como única fonte de carbono, ureia como fonte de nitrogênio suplementar em diferentes concentrações (0,6; 1,2; 2,4; 4,8 e 9,6 g/L de nitrogênio) e diferentes concentrações de CuSO4 (0, 150, 200, 250 e 300 µM). O extrato enzimático produzido nas melhores condições de cultivo foi utilizado para a descoloração dos corantes remazol azul brilhante R (antraquinona), amarelo 145, preto 5, vermelho 195 (azo) e verde malaquita (trifenilmetano). As concentrações de nitrogênio não afetaram a produção de lacase, exceto a maior concentração (9,6 g/L) que reduziu a atividade enzimática. A adição de cobre ao meio de cultivo (150 µM) aumentou a atividade de lacase em 112%. A maior atividade de lacase (~34300 U/L) promoveu a descoloração dos corantes remazol azul brilhante R (67,5%) e verde malaquita (28,3%) em 24h, sendo os corantes azo descoloridos apenas parcialmente. Concluiu-se que o melaço de soja é um resíduo agroindustrial adequado para produção de lacase de P. sanguineus com potencial para degradação de corantes.
Laccases are multicopper oxidases using the redox ability from copper ions to reduce oxygen to water, while oxidizing a phenolic substrate. Laccase synthesis and secretion in basidiomycetes depend on the conditions provided and on the nutrients present in the culture medium. Pycnoporus sanguineus was cultivated in medium containing soybean molasses as the sole carbon source, with urea as the source of supplemental nitrogen at different concentrations (0.6, 1.2, 2.4, 4.8 and 9.6 g/L nitrogen), and different CuSO4 concentrations (0, 150, 200, 250 and 300 µM). The enzymatic extract produced under the best cultivation conditions was used for the depigmentation of remazole brilliant blue R (anthraquinone), yellow 145, black 5, red 195 (azo) and malachite green (triphenylmethane). Nitrogen concentrations did not affect laccase production, except for the higher concentration (9.6 g/L) reducing enzymatic activity. The addition of copper to the culture medium (150 µM) increased laccase activity by 112%. The highest laccase activity (~34300 U/L) promoted the depigmentation of remazol brilliant blue R (67.5%) and malachite green (28.3%) dyes in 24 hours. Azo dyes were only partially discolored. Therefore, it can be considered that soybean molasses is an agro-industrial byproduct suitable for the production of P. sanguineus laccase with potential for dye degradation.
Lacasas son polifenoles oxidasas que utilizan la capacidad redox de iones de cobre para reducir el oxígeno del agua y oxidar un sustrato fenólico. La síntesis y secreción de lacasas de basidiomicetos dependen de las condiciones como los nutrientes presentes en el medio de cultura. Buscando la producción de lacasa, se cultivó Pycnoporus sanguineus en medio que contenía melaza de soja como única fuente de carbono, urea como fuente de nitrógeno suplementar a diferentes concentraciones (0,6, 1,2, 2,4, 4,8 y 9,6 g/L de nitrógeno) y diferentes concentraciones de CuSO4 (0, 150, 200, 250 y 300 µM). El extrato enzimático producido en mejores condiciones de cultivo ha sido utilizado para la decoloración de los colorantes remazol azul brillante R (antraquinona), amarillo 145, negro 5, rojo 195 (azoico) y verde malaquita (trifenilmetano). Las concentraciones de nitrógeno no afectaron la producción de lacasa, excepto la mayor concentración (9,6 g/L) que redujo la actividad enzimática. La adición de cobre al medio de cultivo (150 µM) aumentó la actividad de la lacasa en un 112%. La mayor actividad de lacasa (~34300 U/L) promovió la decoloración de los colorantes remazol azul brillante R (67,5%) y verde malaquita (28,3%) en 24h, siendo que los colorantes azoicos fueran parcialmente decolorados. Se concluye que la melaza de soja es un desecho agroindustrial adecuado para la producción de lacasa de P. sanguineus con potencial para degradación de colorantes.
Subject(s)
Laccase/chemical synthesis , Molasses/supply & distribution , Pycnoporus/enzymology , Soybeans/enzymologyABSTRACT
Background Ethanol has been pointed out as a laccase inducer. However, there are controversial reports about its efficiency with some fungi. In this study, we hypothesized that ethanol laccase induced in Pycnoporus sanguineus depends on nitrogen nutriment conditions. To prove this, we assessed laccase production in submerged cultures of P. sanguineus, with different nitrogen concentrations and with, or without ethanol added in a factorial designed experiment. Results In order to analyze the effects of factors on the response variables, a factorial ANOVA, and response-surface models were performed. It was found that the nitrogen source was the main factor that affected laccase production in P. sanguineus. The treatments with yeast extract (2 g/L) and ethanol (3 g/L) induced the highest laccase activity (31.01 ± 4.9 U/L), while the treatments with urea reached the lowest activity (less than 1.6 U/L). Ethanol had positive and synergic effects on laccase production, in accordance with the surface response model, as long as simple nitrogen sources (urea) were not available. Conclusions We suggest that laccase in P. sanguineus is regulated by a catabolic nitrogen repression mechanism; laccase activity is strongly inhibited by urea used as nitrogen source and it decreases when the amount of urea increases; contrarily, a synergic positive effect was observed between yeast extract and ethanol on laccase production.