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44. Jensen, A. G.; Ndjoko, K.; Wolfender, J. L.; Hostettmann, K.; Camponovo, F.; Soldati, F.
Liquid chromatography-atmospheric pressure chemical ionisation/mass spectrometry:
A rapid and selective method for the quantitative determination of ginkgolides and
bilobalide in Ginkgo leaf extracts and phytopharmaceuticals. Phytochem. Anal., 2002,
13: 31-38.
45. Camponovo, F.; Wolfender, J. L.; Maillard, M. P.; Potterat, O.; Hostettmann, K.
Evaporative light scattering and thermospray mass spectrometry: Two alternative
methods for detection and quantitative liquid chromatographic detrmination of ginkgo-
lides and bilbalide in Ginkgo biloba leaf extracts an phytopharmaceuticals. Phytochem.
Anal., 1995, 6: 141-148.
46. Ganzera, M.; Zhao, J.; Khan, I. A. Analysis of terpenelactones in Ginkgo biloba by high
performance liquid chromatography and evaporative light scattering detection. Chem.
Pharm. Bull., 2001, 49: 1170-1173.
47. Nakanishi, K.; Habaguchi, K. Biosynthesis of ginkgolide B, its diterpenoid nature, and
origin of the tert-butyl group. J. Am. Chem. Soc., 1971, 93: 3546-3547.
48. Rohmer, M. A mevalonate-independent route to isopentyl diphopshate. In Comprehen-
sive Natural Products Chemistry. Oxford, UK: Elsevier, 1999,45-67.
49. Schwarz, M.; Arigoni, D. Ginkgolide biosynthesis. In Comprehensive Natural Products
Chemistry. Oxford, UK: Elsevier, 1999, 367-400.
50. Rohdich, F.; Kis, K.; Bacher, A.; Eisenreich, W. The non-mevalonate pathway of
isoprenoids: Genes, enzymes and intermediates. Curr. Opin. Chem. Biol., 2001,5:
535-540.
51. Eisenreich, W.; Schwarz, M.; Cartayrade, A.; Arigoni, D.; Zenk, M. H.; Bacher, A. The
deoxylulose phosphate pathway of terpenoid biosynthesis in plants and microorganisms.
Chem. Biol., 1998, 5: R221-R233.
52. Schepmann, H. G.; Pang, J.; Matsuda, S. P. T. Cloning and characterization of Ginkgo
biloba levopimaradiene synthase, which catalyzes the first comitted step in ginkgolide
biosynthesis. Arch. Biochem. Biophys., 2001, 392: 263-269.
53. Liao, Z.; Chen, M.; Gong, Y.; Guo, L.; Tan, Q.; Feng, X.; Sun, X.; Tan, F.; Tang, K. A
new geranylgeranyl diphosphate synthase gene from Ginkgo biloba, which intermedi-
ates the biosynthesis of the key precursor for ginkgolides. DNA Sequence, 2004, 15:
153-158.
54. Corey, E. J.; Gosh, A. K. Total synthesis of ginkgolide A. Tetrahedron Lett., 1988, 29:
3205-3206.
55. Corey, E. J.; Kang, M. C.; Desai, M. C.; Ghosh, A. K.; Houpis, I. N. Total synthesis of
(
)-ginkgolide B. J. Am. Chem. Soc., 1988, 110: 649-651.
56. Crimmins, M. T.; Pace, J. M.; Nantermet, P. G.; Kim-Meade, A. S.; Thomas, J. B.;
Watterson, S. H.; Wagman, A. S. Total synthesis of (
)-ginkgolide B. J. Am. Chem. Soc.,
1999, 121: 10249-10250.
57. Crimmins, M. T.; Pace, J. M.; Nantermet, P. G.; Kim-Meade, A. S.; Thomas, J. B.;
Watterson, S. H.; Wagman, A. S. The total synthesis of (
)-ginkgolide B. J. Am. Chem.
Soc., 2000, 122: 8453-8463.
58. Weinges, K.; Hepp, M.; Huber-Patz, U.; Rodewald, H.; Irngartinger, H. Chemie der
ginkgolide, I. 10-Acetyl-1-methoxycarbonyl-2,3,14,15,16-pentanorginkgolid A, ein
zwischenprodukt zur herstellung von bilobalid. Liebigs Ann. Chem., 1986, 1057-
1066.
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