Liquid-Liquid Partitioning SPE GPC Concentration

Separation/ Analysis GC HPLC

Use of selective detectors and

multiple analyses are common

Pesticide degrading catabolic gene and their respective enzymes of microorganisms have been isolated and identified by several researchers. For example lindane (Kumari et al. 2002), endosulfan (Sutherland et al. 2002; Hussain et al. 2007), DDT (Barraga et al. 2007) and monocrotophos degrading microbial genes and enzymes have been (Subhas and Singh 2003; Das and Singh, 2006), isolated and identified. Genetic studies revealed that plasmids are the main place to harbour pesticide catabolising genes in microbial community. Sutherland et al. (2002) had reported Esd gene having sequence homology to monooygenase family which uses reduced flavin, provided by a separate flavin reductase enzyme, as co-substrates in Mycobacterium smegmatis. Esd catalyzes the oxygenation of β-endosulfan to endosulfan monoaldehyde to endosulfan hydroxyether. Esd did not degrade either α-endosulfan or the metabolites of endosulfan and endosulfan sulphate. Wier et al. (2006) have reported that Ese gene of Arthrobacter sp. encoding enzyme from monooxygenase family is capable of degrading both the isomers of endosulfan. After, understanding the gene of interest and enzyme involved, the Superbugs can be created to achieve the desired result at fast rate in short time frame. Lal et al. [25] has reviewed the degradation of HCH and distribution of lin gene in Sphingomonads. S. indicum B90A was found to contain two non-identical linA genes (designated as linA1 and linA2). The linA-encoded HCH dehydrochlorinase (LinA) mediates the first two steps of dehydrochlorination of γ-HCH (Singh, 2008). Besides, genetically modified microbes are used to enhance the capability of pesticide degradation. However, genetically engineered technology for environment use is still controversial because an adverse genotype can be readily mobilized in the environment. In a development of technology following points should be taken care i.e. (i) heterogeneity of contaminant. (ii) concentration of contaminant and its effect on biodegradative microbe, (iii) persistence and toxicity of contaminant, (iv) behaviour of contaminant in soil environment and (v) conditions favourable for biodegradative microbe or microbial population (Singh, 2008). The degradation of persistent chemical compounds by microorganisms in the natural environment has revealed a larger number of enzymatic reactions with high bioremediation potential (Finley et al., 2010). These biocatalysts can be obtained in quantities by recombinant DNA technology, expression of enzymes, or indigenous organisms, which are employed in the field for removing pesticides from polluted sites. The microorganisms contribute significantly for the removal of toxic pesticides used in agriculture and in the absence of enzymatic reactions many cultivable areas would be impracticable for agriculture (Abramowicz, 1995).