Biodegradation of Methyl red by Galactomyces geotrichum MTCC 1360

Galactomyces geotrichum MTCC 1360 can decolorize triphenylmethane, azo and reactive high exhaust textile dyes. At shaking condition this strain showed 100% decolorization of a toxic azo dye Methyl red (100 m gl(-1)) within 1 h in deionized water at 30 degrees C. The degradation of Methyl red was possible through a broad pH (3-12) and temperature(5-50 degrees C) range. Glucose and mycelium concentration had increased the decolorization rate, but the addition of I gl-1 molasses in deionized water made decolorization possible in only 10 min. Induction in the NADH-dichloro phenol indophenol (NADH-DCIP) reductase, Malachite green reductase, laccase and lignin peroxidase (Lip) activities were observed in the cells obtained after complete decolorization, showing that there is direct involvement in the degradation of Methyl red. The absence of N-N'-dimethyl-p-phenylenediamine (DMPD) in 5 degrees C, 2-aminobenzoic acid (ABA) in 50 degrees C and both the compounds in 30 degrees C sample have shown the differences in the metabolic fate of Methyl red at different temperatures. The untreated dye at 300 mg l(-1) concentration showed 88% germination inhibition in Sorghum bicolor, whereas it was 72% in Triticum aestivum. There was no germination inhibition for both the plants by Methyl red metabolites at 300mg l(-1) concentration. The scientific relevance of the paper: The azo dye Methyl red (100 mg l(-1)) was decolorized by G. geotrichum MTCC 1360 within 1 h at shaking condition in deionized water. This organism could decolorize Methyl red at wide pH and temperature ranges. Decolorization time was reduced to 10 min by the addition of molasses to deionized water. There was induction in laccase and Lip, NADH-DCIP reductase and Malachite green reductase activities. The metabolic fate of Methyl red changes with temperature which can be evidenced by the formation of 2-ABA at 5 degrees C, N-Af-DMPD at 50 degrees C and both the compounds were absent at 30 degrees C. Phytotoxicity showed that metabolites of dye had induced shoot and root length of both the tested plants. (C) 2008 Elsevier Ltd. All rights reserved.