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H A Berman

Showing results (21-30 of 41) with videos related to

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Antimicrobial Agents and Chemotherapy|March 1, 1972
Serum sulfonamide concentration after oral administration: comparison of results of chemical assay with two bioassay techniquesH A Berman, M Barza, L Weinstein
Biochemistry|December 3, 1985
Flexibility of the molecular forms of acetylcholinesterase measured with steady-state and time-correlated fluorescence polarization spectroscopyH A Berman, J Yguerabide, P Taylor
Biochemistry|May 13, 1980
Fluorescence energy transfer on acetylcholinesterase: spatial relationship between peripheral site and active centerH A Berman, J Yguerabide, P Taylor
Developmental Biology|March 1, 1987
Reciprocal regulation of acetylcholinesterase and butyrylcholinesterase in mammalian skeletal muscleH A Berman, M M Decker, S Jo
Behavioural Brain Research|September 1, 1983
Behavior during hippocampal microinfusions: anticholinesterase-induced locomotor activationS Zheng, H A Berman, M A Geyer
Biochemistry|October 16, 1979
Ligand-induced conformational changes in acetylcholinesterase investigated with fluorescent phosphonatesD J Epstein, H A Berman, P Taylor
Biochemistry|September 12, 1995
Specificity and orientation of trigonal carboxyl esters and tetrahedral alkylphosphonyl esters in cholinesterasesN A Hosea, H A Berman, P Taylor
The Journal of Ambulatory Care Management|September 5, 1994
The equity model: three commentariesE I Weis, H A Berman, D N Mesches
Circulation Research|April 1, 1992
Regulation of acetylcholinesterase in avian heart. Studies on ontogeny and the influence of vagotomyS A Jo, D M Higgins, H A Berman
Journal of Autonomic Pharmacology|September 1, 1986
Target sites for anticholinesterases on the ventral surface of the medulla oblongata: hypotension elicited by organophosphorus agentsH Edery, M A Geyer, P Taylor, et al.
Pageof 5

Showing results (21-30 of 41) with videos related to

Sort By:
Pageof 5
Antimicrobial Agents and Chemotherapy|March 1, 1972
Serum sulfonamide concentration after oral administration: comparison of results of chemical assay with two bioassay techniquesH A Berman, M Barza, L Weinstein
Biochemistry|December 3, 1985
Flexibility of the molecular forms of acetylcholinesterase measured with steady-state and time-correlated fluorescence polarization spectroscopyH A Berman, J Yguerabide, P Taylor
Biochemistry|May 13, 1980
Fluorescence energy transfer on acetylcholinesterase: spatial relationship between peripheral site and active centerH A Berman, J Yguerabide, P Taylor
Developmental Biology|March 1, 1987
Reciprocal regulation of acetylcholinesterase and butyrylcholinesterase in mammalian skeletal muscleH A Berman, M M Decker, S Jo
Behavioural Brain Research|September 1, 1983
Behavior during hippocampal microinfusions: anticholinesterase-induced locomotor activationS Zheng, H A Berman, M A Geyer
Biochemistry|October 16, 1979
Ligand-induced conformational changes in acetylcholinesterase investigated with fluorescent phosphonatesD J Epstein, H A Berman, P Taylor
Biochemistry|September 12, 1995
Specificity and orientation of trigonal carboxyl esters and tetrahedral alkylphosphonyl esters in cholinesterasesN A Hosea, H A Berman, P Taylor
The Journal of Ambulatory Care Management|September 5, 1994
The equity model: three commentariesE I Weis, H A Berman, D N Mesches
Circulation Research|April 1, 1992
Regulation of acetylcholinesterase in avian heart. Studies on ontogeny and the influence of vagotomyS A Jo, D M Higgins, H A Berman
Journal of Autonomic Pharmacology|September 1, 1986
Target sites for anticholinesterases on the ventral surface of the medulla oblongata: hypotension elicited by organophosphorus agentsH Edery, M A Geyer, P Taylor, et al.
Pageof 5