| 1. Doweyko AM.. (1988) The hypothetical active site lattice. An approach to modelling active sites from data on inhibitor molecules., 31 (7): [PMID:3290487] [10.1021/jm00402a025] |
| 2. Selassie CD, Fang ZX, Li RL, Hansch C, Debnath G, Klein TE, Langridge R, Kaufman BT.. (1989) On the structure selectivity problem in drug design. A comparative study of benzylpyrimidine inhibition of vertebrate and bacterial dihydrofolate reductase via molecular graphics and quantitative structure-activity relationships., 32 (8): [PMID:2502631] [10.1021/jm00128a035] |
| 3. Loukas YL.. (2001) Adaptive neuro-fuzzy inference system: an instant and architecture-free predictor for improved QSAR studies., 44 (17): [PMID:11495588] [10.1021/jm000226c] |
| 4. Crippen GM.. (1997) Validation of EGSITE2, a mixed integer program for deducing objective site models for experimental binding data., 40 (20): [PMID:9379435] [10.1021/jm970211n] |
| 5. So SS, Richards WG.. (1992) Application of neural networks: quantitative structure-activity relationships of the derivatives of 2,4-diamino-5-(substituted-benzyl)pyrimidines as DHFR inhibitors., 35 (17): [PMID:1507206] [10.1021/jm00095a016] |
| 6. Ghose AK, Crippen GM.. (1985) Use of physicochemical parameters in distance geometry and related three-dimensional quantitative structure-activity relationships: a demonstration using Escherichia coli dihydrofolate reductase inhibitors., 28 (3): [PMID:3882967] [10.1021/jm00381a013] |
| 7. Li RL, Poe M.. (1988) Quantitative structure-activity relationships for the inhibition of Escherichia coli dihydrofolate reductase by 5-(substituted benzyl)-2,4-diaminopyrimidines., 31 (2): [PMID:3276891] [10.1021/jm00397a017] |
| 8. Li R, Hansch C, Kaufman BT.. (1982) A comparison of the inhibitory action of 5-(substituted-benzyl)-2,4-diaminopyrimidines on dihydrofolate reductase from chicken liver with that from bovine liver., 25 (4): [PMID:7069722] [10.1021/jm00346a020] |
| 9. Dunn WJ, Hopfinger AJ, Catana C, Duraiswami C.. (1996) Solution of the conformation and alignment tensors for the binding of trimethoprim and its analogs to dihydrofolate reductase: 3D-quantitative structure-activity relationship study using molecular shape analysis, 3-way partial least-squares regression, and 3-way factor analysis., 39 (24): [PMID:8941396] [10.1021/jm960491r] |
| 10. Selassie CD, Li R, Hansch C, Khwaja TA, Dias CB.. (1982) Inhibition by 5-(substituted-benzyl)-2,4-diaminopyrimidines of murine tumor (L5178Y) cell cultures sensitive to and resistant to methotrexate. Further evidence for the sensitivity of resistant cells to hydrophobic drugs., 25 (5): [PMID:7086836] [10.1021/jm00347a007] |
| 11. Selassie CD, Li RL, Poe M, Hansch C.. (1991) On the optimization of hydrophobic and hydrophilic substituent interactions of 2,4-diamino-5-(substituted-benzyl)pyrimidines with dihydrofolate reductase., 34 (1): [PMID:1899453] [10.1021/jm00105a008] |
| 12. Li RL, Dietrich SW, Hansch C.. (1981) Quantitative structure-selectivity relationships. Comparison of the inhibition of Escherichia coli and bovine liver dihydrofolate reductase by 5-(substituted-benzyl)-2,4-diaminopyrimidines., 24 (5): [PMID:7017146] [10.1021/jm00137a012] |
| 13. Selassie CD, Fang ZX, Li RL, Hansch C, Klein T, Langridge R, Kaufman BT.. (1986) Inhibition of chicken liver dihydrofolate reductase by 5-(substituted benzyl)-2,4-diaminopyrimidines. A quantitative structure-activity relationship and graphics analysis., 29 (5): [PMID:3701780] [10.1021/jm00155a006] |
| 14. Hansch C, Li R, Blaney JM, Langridge R.. (1982) Comparison of the inhibition of Escherichia coli and Lactobacillus casei dihydrofolate reductase by 2,4-diamino-5-(substituted-benzyl)pyrimidines: quantitative structure-activity relationships, X-ray crystallography, and computer graphics in structure-activity analysis., 25 (7): [PMID:6809941] [10.1021/jm00349a003] |
