info:eu-repo/semantics/article
Ligninolytic enzyme production and dye decolorization by Trametes trogii: application of the Plackett–Burman experimental design to evaluate nutritional requirements
Fecha
2005-03Registro en:
Levin, Laura Noemí; Forchiassin, Flavia; Viale, A.; Ligninolytic enzyme production and dye decolorization by Trametes trogii: application of the Plackett–Burman experimental design to evaluate nutritional requirements; Elsevier; Process Biochemistry; 40; 3-4; 3-2005; 1381-1387
0032-9592
CONICET Digital
CONICET
Autor
Levin, Laura Noemí
Forchiassin, Flavia
Viale, A.
Resumen
The effects of medium components on laccase, manganese peroxidase and glyoxal oxidase production by Trametes trogii (MYA 28-11) have been studied using Plackett–Burman (PB) experimental design. Copper had the highest positive influence on ligninolytic enzyme production. T. trogii extracellular fluids obtained in the medium which rendered the highest ligninolytic production (45.32 U/ml laccase, 214.5 mU/ml manganese peroxidase and 116 mU/ml glyoxal oxidase) also showed the greatest ability to decolorize the dyes Ponceau 2R (a xylidine derivative), malachite green and anthraquinone blue (at rates of 2.14, 1.35 mg and 3 mg dye/(ml h), respectively). The relationship among decolorization rates and ligninolytic enzyme activities was analyzed by multiple regression. The results fit a linear plus interactions model. The comparison of the response surfaces obtained, suggests that while laccase activity has a greater importance in xylidine degradation, manganese peroxidase activity plays the major role in malachite green decolorization.