.

Molecular study of Pigeonpea

4. Conclusion

Carias, C.C., Novais, J.M., and Martins-Dias, S. 2007.

Phragmites australis peroxidases role in the degradation

The present study displays the efficiency of the white rot

of an azo dye. Water Science Technology 56 : 263-269.

fungal isolate AGYP-1 for the removal of different textile

Chen, G., Huang, M.H., Chen, L., and Chen, D.H. 2011. A batch

dyes. The isolate showed the decolorization of Reactive

decolorization and kinetic study of Reactive Black 5 by

Red M5B on both solid and liquid media with significant

a bacterial strain Enterobacter sp.GY-1. International

rate. Maximum removal of the dye and ligninolytic

Biodeterioration and Biodegradation 65 : 790-796.

enzymes production was achieved at pH 5.0 and 30 o C

Christian, V., Shrivastava, R., Shukla, D., Modi, H.A., and Vyas,

under shaking condition. Maltose and gelatine were

B.R.M. 2005. Degradation of xenobiotic compounds

found to be an optimum carbon and nitrogen sources for

by lignin-degrading white-rot Fungi: Enzymology and

enhanced decolorization of Reactive Red M5B. The isolate

Mechanisma Involved. Indian Journal of Experimental

Biology , 43 , 301-312.

AGYP-1 was able to decolorize higher concentrations of

the dye. The Uv-visible spectrophotometric and HPTLC

Eichlerova, I., Homolka, L., Lisa, L., Nerud, F. 2005. Orange G

and Remazol Brilliant Blue R decolorization by white rot

analysis reviled the degradation of Reactive Red M5B.

fungi Dichomitus squalens, Ischnoderma resinosum and

Therefore, it is concluded that the fungal isolate AGYP-1

Pleurotus calyptratus . Chemosphere 60 : 398-404.

could be promising for bioremediation of synthetic dyes

Eichlerova, I., Homolka, L., and Nerud, F. 2006. Synthetic dye

from industrial waste water.

decolorization capacity of white rot fungus Dichomitus

squalens . Bioresource Technology 97 : 2153-2159.

Acknowledgement

Erdal, S., and Taskin, M. 2010. Uptake of textile dye Reactive

Authors acknowledge Sophisticated Instrumentation

Black-5 by Penicillium chrysogenum MT-6 isolated

from cement-contaminated soil. African Journal of

Centre for Applied Research and Testing (SICART),

Microbiology Research 4(8) : 618-625.

Vallabh Vidyanagar, Gujarat, India for providing necessary

Erkurt, E.A., Unyayar, A., and Kumbur, H. 2007. Decolorization

instrumental facilities.

of synthetic dyes by white rot fungi, involving laccase

enzyme in the process. Process Biochemistry 42 : 1429-

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