Common Names
Ginger
How this plant is used
Generally Recognized as Safe
Chemical Name | Activity Count | Plant Part | Low Parts Per Million | High Parts Per Million | Standard Deviation | Reference |
---|---|---|---|---|---|---|
NONAN-2-OL | 0 | Rhizome | not available | 10.0 | not available | Duke, 1992 * |
NONAN-2-OL | 0 | Rhizome Essent. Oil | not available | 2000.0 | not available | Duke, 1992 * |
NONAN-2-ONE | 0 | Rhizome | 8.0 | 160.0 | not available | Duke, 1992 * |
NONAN-2-ONE | 0 | Rhizome Essent. Oil | not available | 3200.0 | not available | Duke, 1992 * |
NONANAL | 0 | Rhizome | 2.0 | 50.0 | 1.00 | Duke, 1992 * |
NONANAL | 0 | Root | 2.0 | 50.0 | not available | Duke, 1992 * |
NONYL-ALDEHYDE | 0 | Rhizome | not available | not available | not available | Duke, 1992 * |
NONYL-ALDEHYDE | 0 | Rhizome Essent. Oil | not available | not available | not available | Duke, 1992 * |
OCT-TRANS-2-EN-1-AL | 0 | Rhizome | not available | not available | not available | Duke, 1992 * |
OCTAN-1-AL | 0 | Rhizome | 2.0 | 40.0 | not available | Duke, 1992 * |
OCTAN-1-AL | 0 | Rhizome Essent. Oil | not available | 800.0 | not available | Duke, 1992 * |
OCTAN-1-OL-ACETATE | 0 | Rhizome | not available | not available | not available | Duke, 1992 * |
OCTAN-2-OL | 0 | Rhizome | not available | not available | not available | Duke, 1992 * |
OLEIC-ACID | 18 | Rhizome | 1190.0 | 11000.0 | 1.00 | Duke, 1992 * |
OLEIC-ACID | 18 | Root | 1190.0 | 11000.0 | 3.06 | USDA's Ag Handbook 8 and sequelae) |
OXALIC-ACID | 9 | Rhizome | not available | 5000.0 | not available | Duke, 1992 * |
OXALIC-ACID | 9 | Root | not available | 5000.0 | 2.54 | Duke, 1992 * |
P-COUMARIC-ACID | 25 | Rhizome | not available | 19.0 | -1.00 | Duke, 1992 * |
P-CYMEN-8-OL | 0 | Rhizome | 0.5 | 35.0 | not available | Duke, J. A. Writeups or information summaries on approximately 2,000 economic plants, USDA, ARS, Beltsville, MD 20705. |
P-CYMEN-8-OL | 0 | Rhizome Essent. Oil | not available | 700.0 | not available | Duke, 1992 * |
Activity | Chemical Count | Reference |
---|---|---|
Antirhinoviral | 4 | Denyer, C.V., Jackson, P., Loakes, D.M., Ellis, M.R., and Yound, D.A.B. Isolation of Antirhinoviral Sesquiterpenes From Ginger (Zingiber officinale). Journal of Natural Products, 57(5): 658-662, 1994. |
Antisalmonella | 5 | Duke, 1992 * |
Antischistosomiac | 1 | Mills, Simon and Bone, Kerry. 2000. Phytotherapy. Churchill Livinston, Edinburgh. |
Antisclerodermic | 1 | Duke, 1992 * |
Antiscoliotic | 1 | Duke, 1992 * |
Antiscorbutic | 1 | Martindale's 28th |
Antiscotomic | 1 | Duke, 1992 * |
Antiseborrheic | 1 | Duke, 1992 * |
Antiseptic | 34 | Merck 11th Edition |
Antiseratogenic | 1 | Jeffery B. Harborne and H. Baxter, eds. 1983. Phytochemical Dictionary. A Handbook of Bioactive Compounds from Plants. Taylor & Frost, London. 791 pp. |
Antiserotonin | 2 | Jeffery B. Harborne and H. Baxter, eds. 1983. Phytochemical Dictionary. A Handbook of Bioactive Compounds from Plants. Taylor & Frost, London. 791 pp. |
Antishingles | 1 | Davies, S., and Stewart, A. 1990. Nutritional Medicine. Avon Books, New York. 509pp. |
Antishock | 2 | Huang, K. C. 1993. The Pharmacology of Chinese Herbs. CRC Press, Boca Raton, FL 388 pp. |
Antisickling | 6 | Ekeke, G.I. and Shode, F.O. 1988. Phenylalanine is the Predominant Antisickling Agent in Cajanus cajan Seed Extract. Planta Medica 56(1): 41, 1990. |
Antisilicotic | 1 | Medicinal and Poisonous Plants of the Tropics. Leeuwenberg, A.J.M., ed. Pudoc, Wageningen. 1987. |
Antisinusitic | 1 | Duke, 1992 * |
Antispare-Tire | 1 | Challem, J., Berkson, Burt, and Smith, Melissa Dianne. 2000. Syndrome X - The complete nutritional program to prevent and reservse insulin resistance. John Wiley & Sons, New York. 272 pp. $24.95 |
Antispasmodic | 32 | Fitoterapia No.59-1984. |
Antispasmophilic | 1 | Werbach, M. 1993. Healing with Food. Harper Collins, New York, 443 pp. |
Antisprue | 1 | Duke, 1992 * |