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Paper Information

Journal:   INTERNATIONAL JOURNAL OF ENVIRONMENTAL SCIENCE AND TECHNOLOGY (IJEST)   SUMMER 2010 , Volume 7 , Number 3 (27); Page(s) 457 To 464.
 
Paper: 

DECOLORIZATION OF DIFFERENT AZO DYES BY PHANEROCHAETE CHRYSOSPORIUM RP78 UNDER OPTIMAL CONDITION

 
 
Author(s):  GHASEMI F., TABANDEH F.*, BAMBAEI B., SAMBASIVA RAO K.R.S.
 
* DEPARTMENT OF INDUSTRIAL AND ENVIRONMENTAL BIOTECHNOLOGY, NATIONAL INSTITUTE OF GENETIC ENGINEERING AND BIOTECHNOLOGY, TEHRAN, IRAN
 
Abstract: 

Detoxification of synthetic dyes is one of the main challenges in clearing textile industry wastes. Biodegradation of azo-dyes using Phanerochaete chrysosporium is one the most environmentally friendly methods available. The main enzymes responsible for mycodecolorization process are lignin and manganese peroxidases. Here, optimization of expression conditions has been carried out with manipulating culture condition and nutrient sources. Therefore, the effects of buffer and temperature as well as nitrogen source on lignin peroxidase and manganese peroxidase production were investigated at two levels and four levels, respectively. For this purpose, P. chrysosporium RP78 based on Taguchi design of experiment has been applied. Maximum lignin and manganese peroxidase activities of 182 ± 2.5 U/L and 850 ± 41 U/L were obtained under predicted optimum conditions, respectively. Thereby, about 100 % decolorization was achieved after 24 h for two most widely used groups of azo dyes in textile industry consisting reactive and acidic. The physical adsorption of the azo dyes by mycelia was not significant which indicated that the enzymatic degradation of the dyes was occurred. Time profile of these enzymes showed that manganese peroxidase was peaked on 9th day while lignin peroxidase peaked on 13th. day and remained stable in the culture. The extracellular expression profiles of both were studied by 2 dimensional gel electrophoresis to partially characterize the enzymes.

 
Keyword(s): BIODEGRADATION, LIGNOLYTIC ENZYMES, PHANEROCHAETE CHRYSOSPORIUM, TAGUCHI METHOD
 
References: 
 
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