| Status of QSAR at the End of the Twentieth Century / C. Hansch ; T. Fujita |
| Quantitative Structure-Activity and Database-Aided Bioisosteric |
| Structural Transformation Procedure as Methodologies of Agrochemical Design |
| Hydrophobicity Parameter of Heteroaromatic Compounds |
| Derived from Various Partitioning Systems / C. Yamagami |
| Theoretical Estimation ofOctanol-Water Partition Coefficient for Organophosphorus Pesticides / T. Katagi ; M. Miyakado ; C. Takayama ; S. Tanaka |
| The Calculation of Pesticide Hydrophobicity by Computer / A.J. Leo |
| Transport Parameter Dependence on Intermolecular Forces / M. Charton |
| QSARs from Mathematical Models: Systemic Behavior of Pesticides / D.A. Kleier |
| Hydrophobicity and Systemic Activities of Fungicidal Triazoles and BleachingHerbicidal Compounds / M. Takahashi ; Y. Funaki ; K. Izumi ; H. Takano |
| The Incidence of Delayed-Type Contact Dermatitis in ModernPesticides / P.S. Magee |
| QSARs in Environmental Toxicology andChemistry: Recent DevelopmentsI / J.L.M. Hermens ; H.J.M. Verhaar |
| Noncongeneric Structure-ToxicityCorrelation Using Fuzzy Adaptive Least-Squares Moriguchi / Q. Liu ; H. Hirano ; S. Hirono |
| Computer-Aided MolecularModeling and Structure-Activity Analyses of New Antifungal Tertiary Amines / N. Meki ; Y. Kurita |
| QSARs and Three-DimensionalShape Studies of Fungicidal Azolylmethylcyclopentanols: Molecular Design ofNovel Fungicides Metconazole and Ipconazole / H. Chuman ; A. Ito ; T. Saishoji ; S. Kumazawa |
| Structure-Activity Relationships ofQuinone and Acridone Photosystem II Inhibitors / W. Draber ; A. Trebst ; W. Oettmeier |
| The QSAR of InsecticidalUncouplers / D.M. Gange ; S. Donovan ; R.J. Lopata ; K. Henegar |
| QuantitativeStructure-Activity and Molecular Modeling Studies of Novel Fungicides andHerbicides Having 1,2,4-Thiadiazoline Structures / A. Nakayama ; K. Hagiwara ; S. Hashimoto ; H. Hosaka |
| Applications of a New HydrophobicityParameter of Amino Acid Side Chains to Quantitative Structure-Activity Analysesof Oligopeptides / M. Akamatsu ; T. Ueno |
| Successful Application of the QSAR Paradigm in Discovery Programs / E. L. Plummer |
| Comparative QSAR: Understanding Hydrophobic Interactions |
| Applications of Scaled Rank-Sum Statistics in Herbicide QSART / R.D. Clark ; J.J. Parlow ; L.H. Brannigan ; D. M. Schnur ; D.L. Duewer |
| Novel Structure-Activity Insights from Neural Network Models / A. Andrea |
| Three-Dimensional Quantitative Structure-Activity Analysisof Steroidal and Dibenzoylhydrazine-Type Ecdysone Agonists / Y. Nakagawa ; B. Shimizu ; N. Oikawa ; K. Nishimura ; N. Kurihara |
| Comparison of Classical QSAR and Comparative Molecular Field Analysis:Toward Lateral Validations / K.H. Kim |
| Distance Comparisons: A New Strategy for ExaminingThree-Dimensional Structure-Activity Relationships / Y. C. Martin |
| Status of QSAR at the End of the Twentieth Century / C. Hansch ; T. Fujita |
| Quantitative Structure-Activity and Database-Aided Bioisosteric |
| Structural Transformation Procedure as Methodologies of Agrochemical Design |
| Hydrophobicity Parameter of Heteroaromatic Compounds |
| Derived from Various Partitioning Systems / C. Yamagami |
| Theoretical Estimation ofOctanol-Water Partition Coefficient for Organophosphorus Pesticides / T. Katagi ; M. Miyakado ; C. Takayama ; S. Tanaka |
