According to Evans et al [10] and Cerniglia and Yang [4], simila

According to Evans et al. [10] and Cerniglia and Yang [4], similar to naphthalene degradation pathway, catechol also degraded to simple aliphatic compounds. Though naphthalene has been identified as one of the degraded products in the present study, the presence of di-hydroxy anthracene and anthraquinone reveals that the catabolism has been realized through dioxygenase system of the isolate. The initial enzymatic attack at C-1 and C-2 position

observed in the present study showed similarity with the naphthalene dioxygenase system. Though complete degradation of anthracene by Pseudomonas, Sphingomonas, Nocardia, Beijerinckia, Rhodococcus and Mycobacterium [9], [10] and [19] in the presence of external surface-active agent, nevertheless, in the present study, in situ production see more of surface-active agent mediates the degradation as observed. Further, the presence of anthracene and the process of degradation tremendously altered the cell Selleckchem Gemcitabine volume. The modification of cell surface morphology with reference to external stress was observed in both Gram −ve

bacteria and Gram +ve bacteria. An extensive filamentous growth of B. licheniformis was observed when grown in the presence of organic solvents and a toxic compound [28] and suggested that this kind of filamentation of a bacterial cell reduces the environmental stress and also helps in communicating and exchange the information. However, the observations made in the present study suggested that the continuous flow of the molecules by selective permeability Rucaparib molecular weight of cell membrane of MTCC 5514 and the micelle and reverse micellar aggregations occurs in the lipid bilayer as shown schematically ( Scheme 1), reflected as increase in cell volume, however, the said hypothesis,

further needs explorations. In addition, the increase in cell volume may also be reasoned to the chemotaxis behavior of the isolate MTCC 5514. Though, the degradation was ascertained based on the release of degradation of products, the actual degradation mechanism can be explained schematically. Since, it has been observed that, biosurfactant, pH, intra/extra cellular and degradative enzymes, temperature, shaking condition and concentration of the test compound played the significant role in the degradation observed, Scheme 1 convey the actual steps followed during the degradation studies. In brief, once the target molecule intended to the external medium, the presence of surface-active agents result with the formation of micelles and by selective permeability, micelles containing the anthracene molecule make an entry into the lipid bi-layer.

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