Environmental Engineering Reference
In-Depth Information
manganese peroxidase as the main ligninolytic enzyme.
Biores. Technol
.,
Vol. 94, pp. 107-112, 2004.
75. N. Hatvani, I. Mécs. Effects of certain heavy metals on the growth, dye
decolorization, and enzyme activity of
Lentinula edodes.
Ecotoxicol. Environ.
Safety
, Vol. 55, pp. 199-203, 2003.
76. M. S. Revankar, S. S. Lele. Synthetic dye decolorization by white rot fungus,
Ganoderma
sp.
WR-1. Biores. Technol
., Vol. 98, pp. 775-780, 2007.
77. T. Yoshida, H. Tsuge, H. Konno, T. Hisabori, Y. Sugano. The catalytic mecha-
nism of dye-decolorizing peroxidase DyP may require the swinging move-
ment of an aspartic acid residue.
FEBS J
., Vol. 278, pp. 2387-2394, 2011.
78. Y. Wang, R. Vazquez-Duhalt, M. A. Pickard. Purification, characterization,
and chemical modification of manganese peroxidase from
Bjerkandera
adusta
UAMH 8258.
Curr. Microbiol
., Vol. 45, pp. 77-87, 2002.
79. I. Eichlerová, L. Homolka, L. Lisá, F. Nerud. Orange G and Remazol Brilliant
Blue R decolorization by white rot fungi
Dichomitus squalens, Ischnoderma
resinosum
and
Pleurotus calyptratus
.
Chemosphere
, Vol. 60, pp. 398-404,
2005.
80. K. Selvam, K. Swaminathan, K.-S. Chae. Decolourization of azo dyes and a
dye industry effluent by a white rot fungus
Thelephora
sp.
Biores. Technol
.,
Vol. 88, pp. 115-119, 2003.
81. J. S. Knapp, P. S. Newby, L. P. Reece. Decolorization of dyes by wood-rotting
basidiomycete fungi.
Enz. Microb. Technol
., Vol. 17, pp. 664-668, 1995.
82. P. Sivasakthivelan. Decolorization of textile dyes and their effluents using
white rot fungi.
Int. J. ChemTech Res
., Vol. 5, pp. 1309-1312, 2013.
83. M. Tekere, A. Y. Mswaka, R. Zvauya, J. S. Read. Growth, dye degradation and
ligninolytic activity studies on Zimbabwean white rot fungi.
Enz. Microb.
Te c h n o l
., Vol. 28, pp. 420-426, 2001.
84. L. Levin, E. Melignani, A. M. Ramos. Effect of nitrogen sources and vitamins
on ligninolytic enzyme production by some white-rot fungi. Dye decoloriza-
tion by selected culture filtrates.
Biores. Technol
., Vol. 101, pp. 4554-4563,
2010.
85. F.-M. Zhang, J. S. Knapp, K. N. Tapley. Development of bioreactor systems
for decolorization of Orange II using white rot fungus.
Enz. Microb. Technol
.,
Vol. 24, pp. 48-53, 1999.
86. I. Mielgo, M. T. Moreira, G. Feijoo, J. M. Lema. A packed-bed fungal bioreac-
tor for the continuous decolourisation of azo-dyes (Orange II).
J. Biotechnol
.,
Vol. 89, pp. 99-106, 2001.
87. D. Wesenberg, F. Buchon, S. N. Agathos. Degradation of dye-containing tex-
tile effluent by the agaric white-rot fungus
Clitocybula dusenii
.
Biotechnol.
Lett
., Vol. 24, pp. 989-993, 2002.
88. Q. Yang, M. Yang, K. Pritsch, A. Yediler, A. Hagn, M. Schloter, A. Kettrup.
Decolorization of synthetic dyes and production of manganese-dependent
peroxidase by new fungal isolates.
Biotechnol. Lett
., Vol. 25, pp. 709-713,
2003.
Search WWH ::
Custom Search