A Bisdesmosidic Cholestane Glycoside from the Rhizomes of ...
A Bisdesmosidic Cholestane Glycoside from the Rhizomes of ...
A Bisdesmosidic Cholestane Glycoside from the Rhizomes of ...
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<strong>of</strong> Aldose Enantiomers as Trimethylsilyl E<strong>the</strong>rs <strong>of</strong> Methyl<br />
Separation<br />
Chem. Pharm.<br />
2-(Polyhydroxyalkyl)-thiazolidine-4(R)-carboxylates.<br />
35, 501-507 (1987).<br />
Bull.<br />
T., Kuroda, M., Sakagami, H., and Mimaki, Y., Convallasaponin<br />
Higano,<br />
a new 5-spirostanol triglycoside <strong>from</strong> <strong>the</strong> rhizomes <strong>of</strong> Convallaria<br />
A,<br />
Chem. Pharm. Bull. 55, 337-339 (2007).<br />
majalis.<br />
N., Miura, T., Moriyasu, M., Ichimaru, M., Nishiyama, Y., Ogura,<br />
Hirai,<br />
and Kato, A., Cardiotonic activity <strong>of</strong> <strong>the</strong> rhizome <strong>of</strong> Polygonatum<br />
K.,<br />
in rats. Biol. Pharm. Bull. 20, 1271-1273 (1997).<br />
sibiricum<br />
A. and Miura, T., Hypoglycemic action <strong>of</strong> <strong>the</strong> rhizomes <strong>of</strong><br />
Kato,<br />
<strong>of</strong>ficinale in normal and diabetic mice. Planta Med., 60,<br />
Polygonatum<br />
(1994).<br />
201-203<br />
A. and Miura, T., Hypoglycemic activity <strong>of</strong> Polygonati rhizome in<br />
Kato,<br />
and diabetic mice. Biol. Pharm. Bull. 16, 1118-1120 (1993).<br />
normal<br />
Y.P., Fu, G.F., and Cui, H., Current advances on pharmacological<br />
Liu,<br />
<strong>of</strong> Huang Jing, Yu Zhu and <strong>the</strong>ir preparations. Li Shizhen<br />
researches<br />
and Materia Medica Research 4, 371-373 (1998).<br />
Medicine<br />
Y., Kuroda, M., Fukasawa, T., and Sashida, Y., Steroidal<br />
Mimaki,<br />
<strong>from</strong> <strong>the</strong> Bulbs <strong>of</strong> Allium jesdianum. J. Nat. Prod. 62, 194-<br />
<strong>Glycoside</strong>s<br />
(1999).<br />
197<br />
Y., Yokosuka, A., and Sashida, Y., Steroidal glycosides <strong>from</strong> <strong>the</strong><br />
Mimaki,<br />
parts <strong>of</strong> Polian<strong>the</strong>s tuberose. J. Nat. Prod. 63, 1519-1523<br />
aerial<br />
T., Kato, A., Usami, M., Kadowaki, S., and Seino, Y., Effect <strong>of</strong><br />
Miura,<br />
rhizome on blood glucose and facilitative glucose<br />
polygonati<br />
is<strong>of</strong>orm 2 (GLUT2) mRNA expression in Wistar fatty rats.<br />
transporter<br />
Pharm. Bull. 18, 624-625 (1995).<br />
Biol.<br />
T.W.H., Lilia, G.N., Nomura, M., Auwerxa, J., and Schoonjans, K.,<br />
Pols,<br />
bile acid membrane receptor TGR5 as an emerging target in<br />
The<br />
and inflammation. J. Hepatol. 54, 1263-1272 (2011).<br />
metabolism<br />
S., Xia, Z., Mao, S., Lao, A., and Chen, Z., Studies on chemical<br />
Sang,<br />
in seed <strong>of</strong> Allium tuberosum Rottl. Zhongguo Zhongyao<br />
constituents<br />
25, 286-288 (2000).<br />
Zazhi<br />
M., Houten, S.M., Mataki, C., Christ<strong>of</strong>folete, M.A., Kim,<br />
Watanabe,<br />
Sato, H., Messaddeq, N., Harney, J.W., Ezaki, O., Kodama, T.,<br />
B.W.,<br />
K., Bianco, A.C., and Auwerx, J., Bile acids induce<br />
Schoonjans,<br />
expenditure by promoting intracellular thyroid hormone<br />
energy<br />
Nature 439, 484-489 (2006).<br />
activation.<br />
H.Z., Dong, Z.H., and She, J., Modernization <strong>of</strong> Traditional<br />
Zheng,<br />
Medicine and Application, Xueyuan Press, Beijing, pp. 4071-<br />
Chinese<br />
1998.<br />
4074,<br />
July 20, 2011<br />
Received<br />
August 17, 2011<br />
Revised<br />
188 Natural Product Sciences<br />
Accepted August 20, 2011<br />
(2000).
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