Data Views

All Chemicals: 80
  CSV  Excel  PDF

1234Next
Show all rows. Click on column headings to sort table by that column
Chemical Dosage References
ZEAXANTHIN --Madhavi, D. L., Bomser, J., Smith, M., Singletary, K. 1998. Isolation of Bioactive Constituents from Vaccinium myrtillus (Bilberry) Fruits and Cell Cultures. Plant Sci., 131(1): 95-103.
WITHAPHYSACARPIN ED50=0.43 uMKennelly, E. J., Gerhauser, C., Song, L. L., Graham, J. G., Beecher, C. W. W., Pezzuto, J. M., Kinghorn, A. D. 1997. Induction of Quinone Reductase by Withanolides Isolated from Physalis philadelphica (Tomatillos). J. Agr. & Food Chem., 45(10): 3771-3777.
URSOLIC-ACID 5 ug/mlLee, S. K., Song, Y., Mata-Greenwood, E., Kelloff, G. J., Steele, V. E., Pezzuto, J. M. 1999. Modulation of in vitro Biomarkers of the Carcinogenic Process by Chemopreventive Agents. Anticancer Res., 19: 35-44.
TRANS-CHALCONE --Lee, S. K., Song, Y., Mata-Greenwood, E., Kelloff, G. J., Steele, V. E., Pezzuto, J. M. 1999. Modulation of in vitro Biomarkers of the Carcinogenic Process by Chemopreventive Agents. Anticancer Res., 19: 35-44.
TAMARIXETIN --Yannai, S., Day, A. J., Williamson, G., Rhodes, M. J. C. 1998. Characterization of Flavonoids as Monofunctional or Bifunctional Inducers of Quinone Reductase in Murine Hepatoma Cell Lines. Food Chem Toxicol, 36(8): 623-630.
SULPHORAPHANE ED50=0.43 uM*
SULFORAPHANE 15 uM igs musZhang, Y., Talalay, P., Cho, C. G., Posner, G. H. 1992. A Major Inducer of Anticarcinogenic Protective Enzymes from Broccoli: Isolation and Elucidation of Structure. Proc. Nat. Acad. Sci., 89: 2399-2403.
SULFORAPHANE IC50=11 uM*
SULFORAPHANE 15 uM gas musCho, C. G., Posner, G. H., Talalay, P., Zhang, Y. S. 1995. Chemoprotective Isothiocyanates. Patent-US-5,411,986: 1-22.
SULFORAPHANE IC50=5-0.03 ug/mlLee, S. K., Song, Y., Mata-Greenwood, E., Kelloff, G. J., Steele, V. E., Pezzuto, J. M. 1999. Modulation of in vitro Biomarkers of the Carcinogenic Process by Chemopreventive Agents. Anticancer Res., 19: 35-44.
SPIRAEOSIDE --Yannai, S., Day, A. J., Williamson, G., Rhodes, M. J. C. 1998. Characterization of Flavonoids as Monofunctional or Bifunctional Inducers of Quinone Reductase in Murine Hepatoma Cell Lines. Food Chem Toxicol, 36(8): 623-630.
SINIGRIN 15 uMTawfig,N. Heaney,R.K.,Plumb,J.A.,Fenwick,G.R.,Musk,S.R.R.,Williamson,G.1995. Dietary Glucosinolates as Blocking Agents Against Carcinogenesis: Glucosinolate Breakdown Products Assessed Induction of Quinone Reductase Activity I.Carcinogenesis 16(5)119-1194
RHAMNETIN --Yannai, S., Day, A. J., Williamson, G., Rhodes, M. J. C. 1998. Characterization of Flavonoids as Monofunctional or Bifunctional Inducers of Quinone Reductase in Murine Hepatoma Cell Lines. Food Chem Toxicol, 36(8): 623-630.
RESVERATROL ED100=21 uM*
QUERCETIN-4'-GLUCOSIDE 30 uMWillaimason, G., Plumb, G. W., Uda, Y., Price, K. R., Rhodes, M. J. C. 1996. Dietary Quercetin Glycosides: Antioxidant Activity and Induction of the Anticarcinogenic Phase II Marker Enzyme Quinone Reductase in Hepalclc7 Cells. Carcinogenesis 17(11): 2385.
QUERCETIN 6 uMUda, Y., Price, K. R., Williamson, G., Rhodes, M. J. C. 1997. Induction of the Anticarcinogenic Marker Enzyme, Quinone Reductase, in Murine Hepatoma Cells In Vitro by Flavonoids. Cancer Lett., 120 (2): 213-216.
QUERCETIN 13 uM*
PYROCATECHOL --Madhavi, D. L., Bomser, J., Smith, M., Singletary, K. 1998. Isolation of Bioactive Constituents from Vaccinium myrtillus (Bilberry) Fruits and Cell Cultures. Plant Sci., 131(1): 95-103.
PURPURIN IC50>50.7 uM*
PROGOITRIN 15 uMTawfig,N. Heaney,R.K.,Plumb,J.A.,Fenwick,G.R.,Musk,S.R.R.,Williamson,G.1995. Dietary Glucosinolates as Blocking Agents Against Carcinogenesis: Glucosinolate Breakdown Products Assessed Induction of Quinone Reductase Activity I.Carcinogenesis 16(5)119-1194
*Unless otherwise noted all references are to Duke, James A. 1992. Handbook of phytochemical constituents of GRAS herbs and other economic plants. Boca Raton, FL. CRC Press.