Showing results 1 to 20 of 27
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Issue Date | Title | Author(s) | Text |
- | Activation mechanisms for pseudomonas species lipase by cardiovascular drugs in vitro | Lin, M.C.; Laib, G.W.; Lin, C.S.; Lin, G. | - |
- | Activation mechanisms of butyrylcholinesterase by 2,4,6-trinitrotoluene, 3,3-dimethylbutyl-N-n-butylcarbamate, and 2-trimethylsilyl-ethyl-N-n-butylcarbamate | Chiou, S.Y.; Wu, Y.G.; Lin, G. | - |
- | Benzene-1,2-, 1,3-, and 1,4-di-N-substituted carbamates as conformationally constrained inhibitors of acetylcholinesterase | Lin, M.C.; Hwang, M.T.; Chang, H.G.; Lin, C.S.; Lin, G. | - |
- | Benzene-di-N-octylcarbamates as conformationally constrained phospholipase A(2) inhibitors | Lin, G.; 林彥甫; Lin, Y.F.; Hwang, M.T.; Lin, Y.Z. | - |
- | Benzene-di-N-substituted carbamates as conformationally constrained analogs of Pseudomonas lipase substrates | Lin, M.C.; Hwang, M.T.; Chang, H.G.; Lin, C.S.; Lin, G. | - |
- | Benzene-di-N-substituted carbamates as conformationally constrained substrate analogs of cholesterol esterase | Chiou, S.Y.; Lin, M.C.; Hwang, M.T.; Chang, H.G.; Lin, G. | - |
- | Cage amines as the stopper inhibitors of cholinesterases | Lin, G.; Tsai, H.J.; Tsai, Y.H. | - |
- | Comparison of Active Sites of Butyrylcholinesterase and Acetylcholinesterase Based on Inhibition by Geometric Isomers of Benzene-di-N-Substituted Carbamates | Chiou, S.Y.; 林家立; Huang, C.F.; Hwang, M.T.; Lin, G. | - |
- | Conformationally restricted carbamate inhibitors of horse serum butyrylcholinesterase | Lin, G.; Chen, G.H.; Ho, H.C. | - |
- | E339 ... R416 salt bridge of nucleoprotein as a feasible target for influenza virus inhibitors | Shen, Y.F.; Chen, Y.H.; Chu, S.Y.; Lin, M.I.; Hsu, H.T.; Wu, P.Y.; Wu, C.J.; Liu, H.W.; Lin, F.Y.; Lin, G.; Hsu, P.H.; Yang, A.S.; Cheng, Y.S.E.; Wu, Y.T.; Wong, C.H.; Tsai, M.D. | - |
- | Enantiomeric inhibitors of cholesterol esterase and acetylcholinesterase | Lin, G.; Tsai, Y.C.; Liu, H.C.; Liao, W.C.; Chang, C.H. | - |
- | The enhancement of enantioselectivities for lipase-catalyzed reactions by using carbamates | Lin, G.; Lin, W.Y.; Shieh, C.T. | - |
- | Hammett-Taft cross-interaction correlations for the inhibition mechanism of cholesterol esterase by substituted phenyl N-substituted carbamates | Lin, G. | - |
- | Highly potent and selective 4,4 '-biphenyl-4-acylate-4 '-N-n-butylcarbamate inhibitors of Pseudomonas species lipase | Lin, G.; Chen, G.H.; Lu, Y.F.; Su, L.H.; Liao, P.S. | - |
- | Inhibition or activation of Pseudomonas species lipase by 1,2-ethylene-di-N-alkylcarbamates in detergents | Lin, M.C.; 林彥甫; Lu, C.P.; Cheng, Y.R.; Lin, Y.F.; Lin, C.S.; Lin, G. | - |
- | Interaction mechanism between Pseudomonas species lipase and nitro compounds | Lin, M.C.; Hsieh, C.W.; Tsai, H.J.; Ro, Y.R.; Lin, C.S.; Lin, G. | - |
- | Kinetics and Protein-Inhibitor Docking Studies of Enantiomers of exo-2-Norbornyl-N-n-butylcarbamates as Pseudomonas Lipase Inhibitors to Probe the Enantioselectivity of the Enzyme | Shen, Y.F.; Lin, G. | - |
- | Ortho effects in quantitative structure-activity relationships for acetylcholinesterase inhibition by aryl carbamates | Lin, G.; 林彥甫; Liu, Y.C.; Lin, Y.F.; Wu, Y.G. | - |
- | Probing conformations of the glycerol backbones of triacyglycerols in the active site of lipase by 1,2-cyclopentane-carbamates: The meso effect for the enzyme inhibition | Lin, G.; Lai, F.H.; Tsai, B.I.; Hsieh, C.W.; Tsai, H.J. | - |
- | Probing structure-function relationships of serine hydrolases and proteases with carbamate and thiocarbamate inhibitors | Lin, G.; Chiou, S.Y.; Hwu, B.C.; Hsieh, C.W. | - |