The flow rate was adjusted to 1 mL min−1 The analysis of each sa

The flow rate was adjusted to 1 mL min−1. The analysis of each sample was performed using the following binary gradient: 100% buffer A for 2 min, followed by sample injection, 100% buffer A for 2.5 min, 0–10% buffer B for 1.5 min, 10% buffer B for 2 min, 10–20% buffer B for 1 min,

20–40% buffer B for 5 min, 40–100% buffer B for 3 min, 100% buffer B for 5 min, 100–0% buffer B for 1 min, and 100% buffer A for 9 min to equilibrate the system for the next analysis. A254 nm was measured for the detection of ATP and ADP using a Waters 996 Photodiode array detector. Xcg cells were grown at 26±2  °C on a rotary shaker (150 r.p.m.) in a culture medium (LB or RSB) for 16 h. A 2-mL aliquot of the culture (108 CFU mL−1) was withdrawn and centrifuged at 12 500 g for 2 min and the pellet was resuspended in 1 mL saline (0.85%). This was selleck chemicals then

incubated with 2 μL H2DCFDA (5 mM, prepared in absolute ethyl alcohol) at 37 °C for 30 min. An aliquot was smeared on a glass slide, air dried, and examined under a fluorescent microscope (Carl Zeiss, Germany) using an oil immersion objective (× 100) and filter set 15 (Carl Zeiss; excitation: 546 nm; emission: 590 nm). Hydroxyl radical (OH•) formation inside the cells during the course of PCD was detected using an ESR-based spin trapping system, which contained Ivacaftor 50 mM POBN and 250 mM DMSO. A 2-mL aliquot of culture grown for 20 h containing around 108 cells mL−1 was mixed with POBN (50 mM) and DMSO (250 mM), and analyzed using an ESR spectrometer (Bruker, Germany). The spin trapping spectra are the result of four signal-averaged scans and were obtained at ambient temperature (26±2 °C). The instrument

settings were as follows: power, 15.94 mW; receiver gain, 7.96 × 104; modulation frequency, 100 kHz; modulation amplitude, 0.920 G; sweep width, 100 G; and sweep time, 83.886 s. The intracellular hydrogen peroxide (H2O2) level was measured using scopoletin assay. An aliquot of Xcg culture was withdrawn and centrifuged at 12 500 g for 5 min. In a fresh tube, 1 mL supernatant was mixed with fluorogenic substrate scopoletin (2.5 μM) and horseradish peroxidase (5 U mL−1), and incubated for 5 min at ambient temperature (26±2 °C). Later, Molecular motor the suspension was diluted 1/10 with milliQ water, and the fluorescence intensity was measured (excitation: 360 nm, emission: 465 nm) using a spectrofluorometer (FP-6500; Jasco, Japan). Caspase-3 activity was assayed using the synthetic flurogenic substrate Ac-DEVD-AMC as per the method described earlier (Gautam & Sharma, 2002b). The level of caspase-3 biosynthesis was analyzed using SDS-PAGE and Western hybridization as described earlier (Gautam & Sharma, 2002b) using affinity-purified, biotin-conjugated, polyclonal rabbit anti-active human caspase-3 antibody. The experiments were repeated in three independent sets, each in triplicate, and data were analyzed taking all readings into consideration, and expressed in terms of mean and SD.

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