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Journal of Natural Medicines
Erschienen in: Journal of Natural Medicines 4/2008

01.10.2008 | Natural Medicine Note

Chemical constituents of Hypericum erectum Thunb.

verfasst von: Erika Matsuoka, Koichi Machida, Masao Kikuchi

Erschienen in: Journal of Natural Medicines | Ausgabe 4/2008

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Abstract

Twenty-two known constituents, including four xanthones, nine flavonoids and nine phenolic glycosides, were isolated from Hypericum erectum Thunb. Their structures were elucidated on the basis of spectral evidence.
Literatur
1.
Greeson JM, Sanford B, Monti DA (2002) St. John’s wort (Hypericum perforatum): a review of the current pharmacological, toxicological, and clinical literature. Psychopharmacology 153:402–414CrossRef
2.
Jiangsu New Medical College (1977) Dictionary of Chinese crude drugs. Shanghai Scientific Technologic, Shanghai
3.
Tada M, Chiba K, Yamada H, Maruyama H (1991) Phloroglucinol derivatives as competitive inhibitors against thromboxane A2 and leukotriene D4 from Hypericum erectum. Phytochemistry 30:2559–2562CrossRef
4.
Kosuge T, Ishida H, Satoh T (1985) Studies on antihemorrhagic substances in herbs classified as hemostatics in Chinese medicine. IV. On antihemorrhagic principles in Hypericum erectum Thunb. Chem Pharm Bull 33:202–205PubMed
5.
Matsuoka E, Machida K, Kikuchi M (2006) Studies on the constituents of Hypericum species. IV. Chemical structures of arylglycerol glycosides from Hypericum erectum Thunb. J Tohoku Pharm Univ 53:37–41
6.
Gottlieb OR, Mesquita AAL, Oliveira GG, Melo MT (1970) Xanthones from Kielmeyera speciosa. Phytochemistry 9:2537–2544CrossRef
7.
Kijjoa A, Gonzales MJ, Pinto MMM, Silva AMS, Anantachoke C, Herz W (2000) Xanthones from Calophyllum teysmannii var. inophylloide. Phytochemistry 55:833–836PubMedCrossRef
8.
Locksley HD, Murray IG (1971) Xanthones from the heartwood of Ochrocarpos odoratus. Phytochemistry 10:3179–3183CrossRef
9.
Lima RA, Gottlieb OR (1972) Xanthones from Caraipa densiflora. Phytochemistry 11:2307–2309CrossRef
10.
Chen MT, Chen CM (1985) Xanthones from Hypericum sampsonii. Heterocycles 23:2543–2548
11.
Cardona ML, Fernandez I, Pedro JR, Serrano A (1990) Xanthones from Hypericum reflexum. Phytochemistry 29:3003–3006CrossRef
12.
Markham KR, Ternai B, Stanley R, Geiger H, Mabry TJ (1978) Carbon-13 NMR studies of flavonoids. III. Naturally occurring flavonoid glycosides and their acylated derivatives. Tetrahedron 34:1389–1397CrossRef
13.
Nawwar MAM, Hussein SAM, Merfort I (1994) Leaf phenolics of Punica granatum. Phytochemistry 37:1175–1177CrossRef
14.
Borai P, Dayal R (1993) A flavone glycoside from Dalbergia stipulacea leaves. Phytochemistry 33:731–732CrossRef
15.
Simon A, Chulia AJ, Kaouadji M, Allais DP, Delage C (1993) Further flavonoid glycosides from Calluna vulgaris. Phytochemistry 32:1045–1049CrossRef
16.
Hansen SH, Jensen AG, Cornett C, Bjornsdottir I, Taylor S, Wright B, Wilson ID (1999) High-performance liquid chromatography on-line coupled to high-field NMR spectrometry for structure elucidation of constituents of Hypericum perforatum L. Anal Chem 71:5235–5241CrossRef
17.
Jurgeniemk G, Nahrstedt A (2002) Phenolic compounds from Hypericum perforatum. Planta Med 68:88CrossRef
18.
Kishore PH, Reddy MVB, Gunasekar D, Murthy MM, Caux C, Bodo B (2003) A new coumestan from Tephrosia calophylla. Chem Pharm Bull 51:194–196CrossRef
19.
Komatsu M, Tomimori Y, Makiguchi Y (1969) Studies on the constituents of the herb of Panax ginseng C. A. Meyer. II. On the flavonoid constituents. Yakugaku Zasshi 89:122–126PubMed
20.
Nonaka G, Ezaki E, Hayashi K, Nishioka I (1983) Flavonol glucosides from rhubarb and Rhaphiolepis umbellata. Phytochemistry 22:1659–1661CrossRef
21.
Kashiwada Y, Nonaka G, Nishioka I (1986) Tannins and related compounds. XLVIII. Rhubarb. (7). Isolation and characterization of new dimeric and trimeric procyanidins. Chem Pharm Bull 34:3208–3212
22.
Cui CB, Tezuka Y, Kikuchi T, Nakano H, Tamaoki T, Park JH (1992) Constituents of a fern, Davallia mariessi Moore. IV. Isolation and structures of a novel norcarotane sesquiterpene glycoside, a chromone glucuronide, and two epicatechin glycosides. Chem Pharm Bull 40:2035–2040
23.
Pan H, Lundgren LN (1996) Phenolics from inner bark of Pinus sylvestris. Phytochemistry 42:1185–1189CrossRef
24.
Otsuka H, Takeuchi M, Inoshiri S, Sato T, Yamazaki K (1989) Phenolic compounds from Coix lachryma-jobi var. Ma-yuen. Phytochemistry 28:883–886CrossRef
25.
Shao ZY, Zhu DY, Guo YW (2004) Oldhamioside, a new phenolic glucoside from Daphniphyllum oldhamii. Chin Chem Lett 15:52–54
26.
Ozawa T, Takino Y (1979) Biochemical studies on chestnut galls. Part VII. Carbon-13 NMR spectra of phenolic glycosides isolated from chestnut galls. Agric Biol Chem 43:1173–1177
27.
Kitajima J, Ishikawa T, Tanaka Y, Ono M, Ito Y, Nohara T (1998) Water-soluble constituents of fennel. V. Glycosides of aromatic compounds. Chem Pharm Bull 46:1587–1590
28.
Ida Y, Satoh Y, Ohtsuka M, Nagasao M, Shoji J (1993) Phenolic constituents of Phellodendron amurense bark. Phytochemistry 35:209–215CrossRef
29.
Sugiyama M, Kikuchi M (1992) Studies on the constituents of Osmanthus species. X. Structures of phenolic glucosides from the leaves of Osmanthus asiaticus Nakai. Chem Pharm Bull 40:325–326
30.
Inoshiri S, Sasaki M, Kohda H, Otsuka H, Yamazaki K (1987) Aromatic glycosides from Berchemia racemosa. Phytochemistry 26:2811–2814CrossRef
31.
Machida K, Nakano Y, Kikuchi M (1991) Phenolic glycosides from Viburnum dilatatum. Phytochemistry 30:2013–2014CrossRef
32.
Rosa S, Giulio A, Tommonaro G (1996) Aliphatic and aromatic glycosides from the cell cultures of Lycopersicon esculentum. Phytochemistry 42:1031–1034PubMedCrossRef
33.
Inagaki J, Watanabe N, Moon JH, Yagi A, Sakata K, Ina K, Luo S (1995) Glycosidic aroma precursors of 2-phenylethyl and benzyl alcohols from Jasminum sambac flowers. Biosci Biotechnol Biochem 59:738–739PubMedCrossRef
Metadaten
Titel
Chemical constituents of Hypericum erectum Thunb.
verfasst von
Erika Matsuoka
Koichi Machida
Masao Kikuchi
Publikationsdatum
01.10.2008
Verlag
Springer Japan
Erschienen in
Journal of Natural Medicines / Ausgabe 4/2008
Print ISSN: 1340-3443
Elektronische ISSN: 1861-0293
DOI
https://doi.org/10.1007/s11418-008-0256-x

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