Chemistry of Natural Compounds, Vol. 46, No. 2, 2010
FLAVONOIDS AND HYDROXYCINNAMIC
ACIDS FROM Astragalus asper
N. N. Guzhva
UDC 582.736:547.972.06
In continuation of research on the chemical composition of plants from the genus Astragalus [1], we studied
polyphenolic compounds of A. asper Jacq growing in Caucases foothills on Stavropol highlands near Stavropol [2]. Raw
material was collected during flowering. Total polyphenolic compounds were worked up by known methods [1, 3]. For this,
air-dried raw material (1 kg, aerial part) was ground to 3-5 mm and extracted with EtOH (70%, 1:10, 4ꢀ). The yield of
biologically active compounds was about 94% [3].
4
2
The extracts were combined. EtOH was distilled off. The extracts were condensed in vacuo (pressure 4.0410 N/m ).
The condensed extract was purified of lipophilic substances using pentane and heptane. The principal groups of biologically
active compounds were separated by selective extraction by CHCl , EtOAc, BuOAc, and BuOH [4]. Total polyphenolic
3
compounds were obtained from the EtOAc and BuOAc extracts by distilling the solvent, combining them, and drying in a
4
2
vacuum drying cabinet at 45–50°C and 2.6410 N/m [2]. The yield was 5.2% of air-dried mass of raw material.
Paper chromatography (PC) using systems I (BAW, BuOH:AcOH:H O, 4:1:2), II (AcOH, 15%), and III (AcOH, 2%)
2
and specific detectors established that the polyphenols consisted of 10 compounds. Column chromatography over polyamide
using water and a water:EtOH gradient (90:10ꢁ10:90) isolated eight pure compounds.
Compound 1. C H O , mp 196–198°C (MeOH); R 0.83 (system I), 0.28 (system III). UV spectrum (EtOH, ꢂ ,
9
8
4
f
max
–1
nm): 217, 234, 300sh, 235. IR spectrum (KBr, ꢃ , cm ): 3350 (OH), 1650-1630 (C=O), 1610-1575-1540 (Ar), 870.
max
Alkaline fusion gave protocatechoic acid. The melting point of the product agreed with that of caffeic acid. Melting point
depression was not observed. Compound 1 was identified as caffeic acid by comparison with the literature [4].
Compound 2. C H O , mp 203–206°C (MeOH); R 0.63 (system I), 0.66 (system III). UV spectrum (EtOH, ꢂ ,
16 18
9
f
max
–1
nm): 245, 292, 328. IR spectrum (KBr, ꢃ , cm ): 2900–2780 (OH), 1740–1715 (ester), 1660-1625 (C=O), 1605–1550
max
(Ar), 840. Alkaline hydrolysis formed caffeic acid and D-quinic acid. One spot was observed in a chromatogram of a mixed
sample of 2 and chlorogenic acid. Melting point depression also was not observed for 2 and chlorogenic acid. This compound
was identified as chlorogenic acid [1, 4].
Compound 3. C H O , mp 310–312°C (MeOH); R 0.64 (system I), 0.04 (system II). UV spectrum (EtOH, ꢂ ,
15 10
7
f
max
–1
nm): 375, 265. IR spectrum (KBr, ꢃ , cm ): 3380–3300 (OH), 1665 (C=O), 1615-1565-1515 (Ar). Fusion with crystalline
max
KOH formed phloroglucinol and protocatechoic acid. Melting point depression of 3 and authentic quercetin was not observed.
The compound was identified as quercetin [4].
20
Compound 4. C H O , mp 240–242°C (MeOH); [ꢄ] –59° (c 0.1, DMF). UV spectrum (EtOH, ꢂ , nm): 372,
21 20 11
D
max
257. Acid hydrolysis of the compound (1% H SO ) formed an aglycon with mp 310–312°C that was identified by UV and IR
2
4
spectroscopy as quercetin. The sugar component was identified by PC as D-glucose. The site of attachment of the sugar
component to the aglycon was determined using UV spectroscopy with ionizing and complexing reagents. Comparison of
molecular rotations in the studied compound established the ꢅ-configuration for the glycoside bond. Based on the results the
compound was identified as quercimeritrin [4].
Compound 5. C H O , mp 190–192°C (MeOH); R 0.45 (system I), 0.51 (system II). UV spectrum (EtOH, ꢂ ,
21 30 16
f
max
–1
nm): 256, 264sh, 354. IR spectrum (KBr, ꢃ , cm ): 3595-3400 (OH), 1660-1658 (C=O), 1605–1575–1510 (Ar), 1085,
max
1062, 1025, 980, 900 (sugar). Acid hydrolysis (0.25% H SO , stepwise hydrolysis) formed quercetin-3-O-glycoside and
2
4
L-rhamnose; then quercetin, D-glucose, and L-rhamnose. This was confirmed by PC with authentic samples. The compound
was identified as rutin (quercetin-3-rutinoside) [4].
Pyatigorsk State Pharmaceutical Academy, 357532, Stavropol Territory, Pyatigorsk, Russia, fax: (88793) 32 92 67,
e-mail: admin@pgfa.ru. Translated from Khimiya Prirodnykh Soedinenii, No. 2, pp. 254–255, March–April, 2010. Original
article submitted April 8, 2008.
©
0009-3130/10/4602-0303 2010 Springer Science+Business Media, Inc.
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