An autoclaved control

An autoclaved control buy SP600125 was run in parallel which consisted of 30 μM HMX added to 7-mL autoclaved WRF. Tubes were incubated anaerobically in the dark at 39 °C on a rotary shaker (150 r.p.m.); samples were taken at 0.25, 1, 2, 3, 4, and 24 h. All controls and tests were repeated in triplicate. Each strain was incubated with a concentration of 17 μM HMX, added as a liquid solution, which equaled roughly half of the dose in WRF microcosms, in low nitrogen basal (LNB) and

low carbon basal (LCB) media (Eaton et al., 2011; upon pilot testing a dose range of HMX, 17 μM was found to be the highest dose the cultures could tolerate for the 7-day incubation period). A media control consisted of 17 μM HMX in both LNB and LCB without the addition of test organism. A solvent control consisted of both types of media with 1.0 mL of overnight culture http://www.selleckchem.com/products/VX-765.html of the test organism and the addition of 0.1 mL acetonitrile. Cultures were incubated anaerobically, in the dark, at 39 °C on a rotary shaker (150 r.p.m.) for 120 h. Samples were collected at 0, 1, 4, and 5 days and processed for analysis by HPLC and LC-MS/MS as described below. Extracted samples were analyzed immediately by HPLC or frozen at −20 °C until LC-MS/MS analysis. All controls and tests were repeated in triplicate. WRF samples were collected, then frozen at −20 °C until prepared

for HPLC and LC-MS/MS analysis through solid-phase extraction using Waters Oasis HLB (3 mL/60 mg 30 μm) cartridges (Milford, MA), per the manufacturer’s instructions, Rho and modified as previously described (Eaton et al., 2013). HPLC analyses were used to determine the HMX concentration of samples and were carried out using minor modifications (Eaton et al., 2013) to Environmental Protection Agency method 8330A (U.S. Environmental Protection Agency, 2007). LC-MS/MS analyses were performed on an ABI/SCIEX (Applied Biosystems, Foster

City CA) 3200 QTRAP LC-MS/MS system using atmospheric pressure chemical ionization in the negative ion mode (Borton & Olson, 2006). A Phenomenex Ultracarb ODS (20) column (250 × 4.6 mm i.d., 5 μm particle size) was used to separate HMX and its metabolites at a flow rate of 0.75 mL min−1 over 20 min using mobile phases consisting of 0.6 mM ammonium acetate in water (A) and methanol (B) as follows: 0–5 min 90% A, decreasing linearly from 5 to 8 min to 80% A, then to 42% A from 8 to 20 min. Data were acquired using multiple reaction monitoring (MRM), using 46  355 and 147  355 (HMX + CH3COO−), 59.8  135 (methylenedinitramine), 61  118 (NDAB) as transitions. Source and gas parameters followed those in Eaton (2013). Declustering potential, entrance potential, collision entrance potential, collision energy, and collision exit potential were as follows: HMX (−15, −3.5, −24.8, −12, −4 for both transitions), methylenedinitramine (−10, −2.5, −10, −16, −58), 4-nitro-2,4-diazabutanal (NDAB; −5, −3.5, −6, −10, 0).

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