, 1995) or cometabolism of chrysene (Mueller et al, 1990; Boonch

, 1995) or cometabolism of chrysene (Mueller et al., 1990; Boonchan et al., 1998). Recently, Baboshin et al. (2008) reported o-hydroxyphenanthroic acid as the only metabolite

formed during the cometabolism of chrysene by Sphingomonas sp. VKM B-2434. However, their report was confined to cleavage of the first ring of chrysene only. No detailed investigations on chrysene degradation pathways have been reported. In this study, we propose a tentative Trichostatin A clinical trial catabolic pathway consistent with the complete mineralization of chrysene on the basis of characterization of metabolites by chromatographic and mass spectral analysis as well as enzymatic evidence. Chrysene, 1-hydroxy-2-naphthoic acid, phenanthrene, NADH and NAD+ were purchased from Sigma-Aldrich (Steinheim, Germany). 1,2-Dihydroxynaphthalene, salicylate and catechol were procured from Lancaster Chemicals (UK). All chemicals used were of analytical grade. The bacterial strain capable of degrading chrysene was isolated from soil of the coal-powered Raichur Thermal Power Station, India, by enrichment culture methods. About 1 g of soil was added to 100 mL phosphate-buffered mineral salts (PMS) medium (Nayak et al., 2009) supplemented with 40 mg chrysene [added as selleck screening library a solution in dimethylformamide (DMF)] and 5 mg salicylic acid, and was incubated at 37 °C for 12

days on a rotary shaker at 180 r.p.m. The culture was then transferred to fresh PMS medium containing chrysene and incubated under Carnitine dehydrogenase similar conditions. After several transfers (2 months) strain PNK-04 was isolated by plating on PMS medium with chrysene (10 mg dissolved in DMF and spread on the plate) as sole carbon source, and subsequent purification in Luria–Bertani agar. The bacterial strain was identified based on morphological and physiological data and 16S rRNA gene sequencing (Nayak et al., 2009). This culture has been deposited in the National Collection of Industrial Microorganisms (NCIM), Pune, India, with accession number NCIM 5309. Chrysene degradation

experiments were carried out by growing the strain in PMS medium with chrysene and monitoring the disappearance of chrysene by quantitative UV analysis. Experiments were conducted in triplicate. To increase the solubility of chrysene, a stock solution of chrysene was prepared in the minimum amount (80 mg mL−1) of DMF. The appropriate amount of filter-sterilized (0.2 μm; Millipore) stock solution of chrysene was introduced into a 250 mL flask containing 100 mL sterilized PMS medium to obtain 40 mg chrysene per flask. Chrysene-grown cells from late exponential growth phase (OD660 nm of 0.6) were used as inoculum (2%, v/v). Controls consisted of uninoculated samples, inoculated samples in the absence of carbon source and inoculated samples containing only DMF. Cultures and controls were incubated on a rotary shaker (180 r.p.m., 37 °C).

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