Calibrated capillary tubes (10 μl) used for capillary assays were

Calibrated capillary tubes (10 μl) used for capillary assays were procured from Drummond Scientific (Broomall, PA, USA). HPLC grade methanol, glacial acetic acid, trifluoroacetic acid and other solvents were obtained from Merck Limited (Darmstadt, Germany). All other chemicals and media used were of the highest purity grade. Results Metabolic activity of strain SJ98 on CNACs Results obtained from an initial screening for metabolic activity of strain SJ98 on six test CNACs demonstrated that it could mineralize 2C4NP, 4C2NB and 5C2NB, whereas 2C3NP and 2C4NB could only be co-metabolically transformed in the presence of an alternative carbon source, and no metabolic activity was observed

with 4C2NP (Additional File: Figures S1, S2). To determine whether the metabolized CNACs are transformed Evofosfamide cell line oxidatively or reductively, culture supernatants from transformation medium (MM + 10 mM sodium succinate plus test CNAC) were analyzed for the presence of nitrite or ammonia, respectively. 2C4NP and 2C3NP were click here oxidatively transformed, as determined by the presence of nitrite in culture supernatants, as was one of the three chloronitrobenzoates (CNBs) Bindarit molecular weight tested (2C4NB). The other two CNBs (4C2NB and 5C2NB) were transformed reductively, as indicated by the presence of ammonium in the culture medium. Culture supernatants collected from all of the transformed

CNACs also tested positive for the presence of released Cl- ions. Identification of transformation intermediates Preliminary TLC studies of culture supernatants showed formation of p-nitrophenol (PNP), 4-nitrocatechol (4NC) and 1,2,4-benzenetriol (BT) from 2C4NP; identification of these metabolites was in agreement with our earlier report on SJ98-mediated degradation

of 2C4NP [19]. Metabolites identified from the metabolic activity of strain SJ98 on other tested CNACs were as follows: m-nitrophenol (MNP) and 3-nitrocatechol (3NC) from 2C3NP; o-nitrobenzoate (ONB) and 3-hydroxyanthranilate (3HAA) from 4C2NB and (-)-p-Bromotetramisole Oxalate 5C2NB; and p-nitrobenzene (PNB) and 3,4-dihydroxybenzoic acid (34DHBA) from 2C4NB. GC and HPLC analyses using authentic standards confirmed the identity of these intermediates (Table 1). No metabolite could be detected for 4C2NP with any of the chromatographic methods used. Table 1 Identification of metabolites formed during transformation of different CNACs by strain SJ98   GC Rt of substrates and metabolites (min) HPLC Rt of substrates and metabolites (min) Identified metabolites   Substrate Metabolite Substrate Metabolite   Test compounds           2C4NP 2.66 2.43, 4.18, 5.99 2.16 1.98, 3.58, 4.21 PNP, 4NC, BT 2C3NP 2.42 2.31 2.07 1.86,3.49 MNP, 3NC 4C2NP 2.24 ND 2.03 ND ND 2C4NB 2.74 2.1, 3.60 19.45 3.53 PNB, 3,4DHBA 4C2NB 2.51 2.88, 3.26 21.87 2.36, 3.89 ONB, 3HAA 5C2NB 2.52 2.875, 3.24 26.98 2.41, 3.92 ONB, 3HAA Standards           PNP 2.44   1.99     4NC 4.17   3.59     BT 5.94   4.19     MNP 2.32   1.88     3-Nitrocatechol ND   3.50     PNB 2.11   3.

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