9 (C-3), 59.0 (C-17), 55.2 (C-14), 47.5 (C-5), 46.7 (C-8), 41.6 (C-20), 39.7 (C-13), 37.7 (C-4), 33.7 (C-25), 34.7 (C-10), 33.3 (C-25), 39.6–25.9 (10 × CH2), 23.5–15.5 (9 × CH3). Lanost-20-en-3β-acetate (9): mp 156–57 °C, check details white granules, C32H54O2, m/z 470 (M+). In the infrared spectrum prominent peaks appeared at 1740 (C O stretching), 1240 cm-1 (O C–O of acetate), 1375 and 1355 (gem dimethyl stretching) and at 970 cm−1 indicating the presence of disubstituted trans double bond. In the 1H NMR spectrum, signals for 8 methyl groups i.e.
24 protons were observed at δ 0.79–1.06 suggesting that the acetate could be a tetracyclic triterpene. The presence of two olefinic protons was shown by multiplet at δ 5.18. Three protons of acetyl group appeared at δ 2.05 while a multiplet at δ 4.50 was assigned to the C-3 proton attached to the acetoxy function (>CHOAc). The remaining methylene and methine protons appeared as a multiplet at δ 1.13–1.98. In the 13C NMR spectrum, two olefinic methines C-22 and C-23 were observed at 145.2 and 121.6 respectively. The seven methine carbons C-3, C-5, C-8, C-9, C-17, C-20 and C-25 appeared
at δ 80.9, 47.5, 47.2, 46.7, 55.2, 41.6 and 33.3 respectively and a carbonyl carbon C-31 at δ 171.0. The four quaternary carbons C-4, C-10, C-13 and C-14 appeared at δ 37.7, 34.7, 32.5 and 38.2. In addition to these the ten methylene carbons were observed at δ 25.9–39.6 while nine methyl carbons appeared at δ 15.5–23.5. 19 The above learn more spectral
data led to the identification of compound 9 as a novel lanostane derivative, lanost-22-en-3β-acetate being reported for the first time. α-Amyrin octacosanoate (10): mp 63–65 °C, white granules, C58H104O2, m/z 470 (M+), IR (vmax) cm−1(KBr): 1735, 1640,1240, 1020, 730, 720. 1H NMR (CDCl3, 300 MHz): 5.37 (1H, d), 4.50 (1H, dd), 2.32 (2H, m), 1.90–1.21 (23H, m), 1.25 (50H, br s), 1.02–0.67 (9 × CH3). On hydrolysis with 5% alcoholic potassium hydroxide it gave α-amyrin 20 and octacosanoic acid. 11 β-Sitosterol (11): mp 135–136 °C,21 white needles, C29H50O, m/z 414 (M+), IR (vmax) cm−1(KBr): 3400, 1640 and 1090. 1H NMR (CDCl3, 300 MHz): 5.27 (1H, t), 3.48 (1H, m), 2.0–1.19 (30 H, m), 1.16–0.70 (6 × CH3, s,d). β-Sitosterol-β-D-glucoside (12): mp 278–280 °C,22 white granules, C35H60O6, IR (vmax) cm−1 (KBr): however 3400 (broad), 1640 and 1120. 1H NMR (CDCl3 + DMSO-d6, 300 MHz): 5.42 (1H, t), 4.49 (1H, dd), 3.98–3.33 (6H, m), 1.76-0.71 (48H, m). It was observed that both the root bark and heartwood extracts exhibited significant activity by both the methods; the heartwood extract showing activity even better than that of standard ascorbic acid. On determining of free radical scavenging activity using DPPH (Table 1) the low absorption value at 10 μg/ml indicated these to be effective even at a very low concentration. Also, IC50 value of the root bark (IC50 = 5.80 μg/ml) and heartwood (IC50 = 4.