4 (Ar C–H), 1,676–1,645 (C=O), 1,625–1,594 cm−1 (C=N), 1,517–1,53

4 (Ar C–H), 1,676–1,645 (C=O), 1,625–1,594 cm−1 (C=N), 1,517–1,530.9 (Ar C–C), 1,270 cm−1 (C–N), 1,177–1,125 cm−1 (sulphonamide), 1,128–1,030 cm−1 (S=O) and 756–662 cm−1 (thiadiazole C–S). The 1H-NMR spectra of all compounds indicated expected

peaks in the region of 1.249–1.254 δ ppm (s, Ar–SO2NH), 3.569–4.116 δ ppm (s, Schiff base CH=N) and 8.24–8.523 δ ppm (s, amide C(=O)N–H), while multiplets of aromatic ring are in the range of 6.6–8.2 δ ppm. Thin-layer chromatography (TLC) was run throughout the reaction to optimize the reaction for purity and completion. Pharmacological evaluation Antioxidant and free PF-02341066 clinical trial radical scavenging activity ABTS ·+ radical, lipid peroxidation, DPPH radical, superoxide anion and nitric oxide anion radical scavenging activity has been used as a quick and reliable parameter to assess the in vitro antioxidant activity. Each method relates to the generation of a different radical, acting through a variety of mechanisms and the measurement of a range MGCD0103 purchase of end points at a fixed time point or over a range (Miller and Rice-Evans, 1994, 1996). The different concentrations of the synthesized compounds showed antioxidant activities in a dose-dependent manner. Comparative IC50 (nM/mL) inhibitory concentrations of synthesized compounds against different free radicals are reported in Table 1. All the tested compounds showed statistically Pritelivir concentration significant (P < 0.05) IC50 values. Among the tested compounds, (9c) is

the most potent compound and had lowest IC50 (nM/mL) value against DPPH radical, nitric oxide anion and lipid peroxidation, while (9e) and (9f) showed maximum potency against ABTS ·+ radical and superoxide anion radical, respectively. The study also indicates that the compounds (9c), (9d) and (9f) showed the smaller IC50 (nM/mL) values even than respective standards, indicating that these compounds are more potent than the standard, and reveals that the electron-donating Metalloexopeptidase functional group like –OCH3

(9c and 9d) or the functional group like –OH having the ability to bind with free radical (9f) is responsible for the potency. Table 1 Comparative IC50 inhibitory concentration of synthesized compounds and standards against different free radicals Compound no. IC50 inhibitory concentration (nM/mL)a ABTS+ radicalb Lipid peroxidationc DPPH radicald Superoxide anione Nitric oxide radicalf 9a 73.30 ± 7.05* [4.07] 121.63 ± 18.60 [10.74] 134.07 ± 12.90* [22.34] 151.89 ± 14.42* [24.97] 103.67 ± 7.50* [12.99] 9b 93.30 ± 10.67* [6.16] 133.02 ± 11.53* [6.65] 88.19 ± 11.09* [6.40] 76.31 ± 11.80* [6.81] 52.57 ± 16.73* [9.66] 9c 196.17 ± 16.60* [9.58] 101.78 ± 14.51** [8.38] 41.27 ± 4.23** [2.44] 128.09 ± 21.74* [12.55] 81.90 ± 10.44* [6.02] 9d 55.61 ± 6.98* [4.03] 164.49 ± 14.56* [8.41] 63.56 ± 8.35** [4.82] 74.52 ± 8.3* [4.79] 53.03 ± 6.74* [3.89] 9e 47.89 ± 9.90* [5.72] 134.34 ± 14.70** [8.49] 107.28 ± 18.13** [10.46] 135.52 ± 22.55* [13.02] 155.21 ± 17.64* [10.19] 9f 207.14 ± 17.41* [10.05] 203.74 ± 20.11** [11.61] 80.

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