Environmental Engineering Reference
In-Depth Information
modi
cation of the microorganisms and enzymes would help us in tailoring
microbes with higher catalytic power to target a range of toxic compounds. Opti-
mization of the biological remediation process with respect to time, ef
ciency,
stabilization and costs will promote to develop new bioremediation technology.
Emerging effective technology is likely to be a combination of more than one
treatment, either biological or chemical, for the complete mineralization and
detoxi
uents from the textile industries. However, adap-
tation of new treatments has not to target on pollution reduction alone, but also on
reuse of waste water and likely use of by-products for other applications, if possible.
cation of the colored ef
References
Abadulla E, Tzanov T, Costa S, Robra KH, Cavaco-Paulo A, Gubitz GM (2000) Decolorization
and detoxi
cation of textile dyes with a laccase from Trametes hirsuta. Appl Environ
Microbiol 66(8):3357
-
3362
Andleeb S, Atiq N, Robson GD, Ahmed S (2012) An investigation of anthraquinone dye
biodegradation by immobilized Aspergillus avus in uidized bed bioreactor. Environ Sci
Pollut Res 19:1728
1737
Annuar MSM, Adnan S, Vikineswary S, Chisti Y (2009) Kinetics and energitics of azo dye
decolorization by Pycnoporus sanguineus. Water Air Soil Pollut 202:179
-
188
Aust SD (1995) Mechanisms of degradation by white rot fungi. Environ Health Pers 103:59
-
61
-
Baldrian P (2006) Fungal laccases
242
Banat IM, Nigam P, Singh D, Marchant R (1996) Microbial decolorization of textile-dye-
containing ef
uents. Bioresour Technol 58:217
—
occurrence and properties. FEMS Microbiol Rev 30:215
-
227
Banci L (1997) Structural properties of peroxidases. J Biotechnol 53(2
-
263
BenYounes S, Mechichi T, Sayadi S (2007) Puri
cation and characterization of the laccase
secreted by the white rot fungus Perenniporia tephropora and its role in the decolourization of
synthetic dyes. J Appl Microbiol 102(4):1033
-
1042
Cai D, Tien M (1992) Kinetic studies on the formation and decomposition of compound II and III.
Reactions of lignin peroxidase with H
2
O
2
. J Biol Chem 267:11149
-
11155
Cai D, Tien M (1993) Lignin-degrading peroxidases of Phanerochaete chrysosporium.
J Biotechnol 30:79
-
90
Camarero S, Ibarra D, Martınez MJ, Martınez AT (2005) Lignin-derived compounds as efcient
laccase mediators for decolorization of different types of recalcitrant dyes. Appl Environ
Microbiol 71:1775
3):253
-
-
1784
Cartoni A, Menna P, Salvatorelli E, Braghiroli D, Giampietro R, Animati F, Urabani A, Boccio
PD, Minotti G (2004) Oxidative degradation of cardiotoxic anticancer anthracyclines to
phthalic acids. J Biol Chem 279:5088
-
5099
Casieri L, Varese GC, Anatasi A, Prigione V, Svobodova K, Marchisio VF, Novotny C (2008)
Decolorization and Detoxi
cation of reactive industrial dyes by immobilized fungi Trametes
pubescens and Pleurotus ostreatus. Folia Microbiol 53(1):44
-
52
Champagne PP, Ramsay JA (2005) Contribution of manganese peroxidase and laccase to dye
decolourization by Trametes versicolor. Appl Microbiol Biotechnol 69:276
-
285
Chen KC, Wu JY, Liou DJ, Huang SCJ (2003) Decolorization of the textile dyes by newly isolated
bacterial strains. J Biotechnol 101:57
-
68
Couto RS, Herrera JT (2006) Industrial biotechnological applications of laccases: a review.
Biotechnol Adv 24:500
-
513
Couto SR (2009) Dye removal by immobilized fungi. Biotechnol Adv 27:227
-
235
-
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