Search research articles
Contact Us
Filters
Showing results (31-40 of 47) with videos related to
Page
of 5
Sort By:
Biochemical Pharmacology
|
September 1, 1982
Metabolism of tamoxifen by isolated rat hepatocytes: anti-estrogenic activity of tamoxifen N-oxide
D J Bates, A B Foster, L J Griggs, et al.
Carbohydrate Research
|
August 1, 1971
Fluorinated carbohydrates: XII. 4-Deoxy-4-fluoro-D-glucose: an improved synthesis and the glycosyl fluoride derivatives
A D Barford, A B Foster, J H Westwood, et al.
Biomedical Mass Spectrometry
|
November 1, 1983
Metabolism of aminoglutethimide in humans: identification of hydroxylaminoglutethimide as an induced metabolite
M Jarman, A B Foster, P E Goss, et al.
Journal of Medicinal Chemistry
|
December 1, 1989
Derivatives of tamoxifen. Dependence of antiestrogenicity on the 4-substituent
R McCague, G Leclercq, N Legros, et al.
Biochemical Society Transactions
|
October 1, 1979
Microsomal biophenyl hydroxylation: the effect of selective deuterium substitution on the rate of formation of the monohydroxybiphenyls [proceedings]
J W Bridges, D McKillop, P J Cox, et al.
Xenobiotica; the Fate of Foreign Compounds in Biological Systems
|
March 1, 1986
Effect of omega-trifluorination on the microsomal metabolism of ethyl and pent-1-yl p-nitrophenyl ether
M H Baker, A B Foster, F Leclercq, et al.
ACS Applied Materials & Interfaces
|
April 2, 2010
Controlled sparse and percolating cross-linking in waterborne soft adhesives
F Deplace, C Carelli, A Langenfeld, et al.
Biochemical Pharmacology
|
August 15, 1973
Metabolism of aniline mustard (N,N-di-(2-chloroethyl)aniline)
T A Connors, P B Farmer, A B Foster, et al.
Journal of Medicinal Chemistry
|
September 1, 1987
Analogues of 3-ethyl-3-(4-pyridyl)piperidine-2,6-dione as selective inhibitors of aromatase: derivatives with variable 1-alkyl and 3-alkyl substituents
C S Leung, M G Rowlands, M Jarman, et al.
Biomedical Mass Spectrometry
|
April 1, 1974
Observations on the mechanism of hydroxylation of cyclophosphamide by rat liver microsomes: the metabolism of cyclophosphamide-4-d2
T A Connors, P J Cox, P B Farmer, et al.
Page
of 5
Search research articles
Search
Showing results (31-40 of 47) with videos related to
Sort By:
Page
of 5
Biochemical Pharmacology
|
September 1, 1982
Metabolism of tamoxifen by isolated rat hepatocytes: anti-estrogenic activity of tamoxifen N-oxide
D J Bates, A B Foster, L J Griggs, et al.
Carbohydrate Research
|
August 1, 1971
Fluorinated carbohydrates: XII. 4-Deoxy-4-fluoro-D-glucose: an improved synthesis and the glycosyl fluoride derivatives
A D Barford, A B Foster, J H Westwood, et al.
Biomedical Mass Spectrometry
|
November 1, 1983
Metabolism of aminoglutethimide in humans: identification of hydroxylaminoglutethimide as an induced metabolite
M Jarman, A B Foster, P E Goss, et al.
Journal of Medicinal Chemistry
|
December 1, 1989
Derivatives of tamoxifen. Dependence of antiestrogenicity on the 4-substituent
R McCague, G Leclercq, N Legros, et al.
Biochemical Society Transactions
|
October 1, 1979
Microsomal biophenyl hydroxylation: the effect of selective deuterium substitution on the rate of formation of the monohydroxybiphenyls [proceedings]
J W Bridges, D McKillop, P J Cox, et al.
Xenobiotica; the Fate of Foreign Compounds in Biological Systems
|
March 1, 1986
Effect of omega-trifluorination on the microsomal metabolism of ethyl and pent-1-yl p-nitrophenyl ether
M H Baker, A B Foster, F Leclercq, et al.
ACS Applied Materials & Interfaces
|
April 2, 2010
Controlled sparse and percolating cross-linking in waterborne soft adhesives
F Deplace, C Carelli, A Langenfeld, et al.
Biochemical Pharmacology
|
August 15, 1973
Metabolism of aniline mustard (N,N-di-(2-chloroethyl)aniline)
T A Connors, P B Farmer, A B Foster, et al.
Journal of Medicinal Chemistry
|
September 1, 1987
Analogues of 3-ethyl-3-(4-pyridyl)piperidine-2,6-dione as selective inhibitors of aromatase: derivatives with variable 1-alkyl and 3-alkyl substituents
C S Leung, M G Rowlands, M Jarman, et al.
Biomedical Mass Spectrometry
|
April 1, 1974
Observations on the mechanism of hydroxylation of cyclophosphamide by rat liver microsomes: the metabolism of cyclophosphamide-4-d2
T A Connors, P J Cox, P B Farmer, et al.
Page
of 5