Paris : Libr. Impr. rèunies, [s.d.]

244 p., 16 tav. ; 19 cm

733.074

FLFBC

733.074 LOU 1

Francese

Hoboken, : Wiley, 2006

1-280-85421-9

9786610854219

3-527-60767-6

3-527-60713-7

1 online resource (323 p.)

Methods and Principles in Medicinal Chemistry ; ; v.33

MannholdRaimund

KubinyiHugo

FolkersGerd

615.19

Biomolecules

Chemical reactions -- Computer simulation

Chemicals -- Pharmacokinetics -- Forecasting

Chemicals -- Physiological effect -- Forecasting

Drug development

Pharmaceutical chemistry

Structure-activity relationships (Biochemistry) -- Computer simulation

Pharmaceutical chemistry - Physiological effect - Forecasting

Chemicals - Computer simulation

Chemical reactions - Computer simulation

Structure-activity relationships (Biochemistry)

Computational Biology

Models, Molecular

Quantitative Structure-Activity Relationship

Computer Simulation

Drug Design

Pharmaceutical Preparations

Software

Structure-Activity Relationship

Biology

Drug Discovery

Computing Methodologies

Chemicals and Drugs

Models, Theoretical

Biological Science Disciplines

Chemistry, Pharmaceutical

Biochemical Phenomena

Information Science

Pharmacological Phenomena

Investigative Techniques

Natural Science Disciplines

Analytical, Diagnostic and Therapeutic Techniques and Equipment

Pharmacology

Physiological Phenomena

Chemistry

Chemical Phenomena

Phenomena and Processes

Disciplines and Occupations

Pharmacy, Therapeutics, & Pharmacology

History of Medicine

Health & Biological Sciences

Medicine

Electronic books.

Inglese

Description based upon print version of record.

Molecular Interaction Fields; A Personal Foreword; Contents; Preface; List of Contributors; I Introduction; 1 The Basic Principles of GRID; 1.1 Introduction; 1.2 Philosophy and Objectives; 1.3 Priorities; 1.4 The GRID Method; 1.4.1 GRID Probes Are Anisometric; 1.4.2 The Target "Responds" to the Probe; 1.4.3 The Target is Immersed in Water; 1.5 The GRID Force Field; 1.5.1 The Lennard-Jones Term; 1.5.2 The Electrostatic Term; 1.5.3 The Hydrogen Bond Term; 1.5.4 The Other Terms; 1.6 Nomenclature; 1.6.1 "ATOM" Records; 1.6.2 "HETATM"

Records; 1.7 Calibrating the GRID Force Field

1.7.1 Checking the Calibration1.7.2 Checking Datafile GRUB; 1.8 The Output from GRID; 1.8.1 GRID Maps from Macromolecules; 1.8.2 GRID Maps from a Small Molecule; 1.9 Conclusions; 2 Calculation and Application of Molecular Interaction Fields; 2.1 Introduction; 2.2 Calculation of MIFs; 2.2.1 The Target; 2.2.2 The Probe; 2.2.3 The Interaction Function; 2.2.3.1 Van der Waals Interactions; 2.2.3.2 Electrostatic Interactions; 2.2.3.3 Hydrogen Bonds; 2.2.3.4 Entropy; 2.3 Selected Applications of MIFs; 2.3.1 Mapping a Ligand Binding Site in a Protein; 2.3.2 Deriving 3D-QSARs

2.3.3 Similarity Analysis of a Set of Related Molecules2.4 Concluding Remarks and Outlook; II Pharmacodynamics; 3 Protein Selectivity Studies Using GRID-MIFs; 3.1 Introduction; 3.2 GRID Calculations and Chemometric Analysis; 3.2.1 Source and Selection of Target Structures; 3.2.2 Selection and Superimposition of Binding Sites; 3.2.3 Calculation of the Molecular Interaction Field; 3.2.4 Matrix Generation and Pretreatments; 3.2.4.1 Region Cut-outs; 3.2.5 GRID/PCA; 3.2.5.1 Score Plots; 3.2.5.2 Two-Dimensional Loading Plots; 3.2.5.3 Loading Contour Maps; 3.2.5.4 Problems of GRID/PCA

3.2.6 GRID/CPCA3.2.6.1 Block Unscaled Weights; 3.2.6.2 CPCA; 3.2.6.3 Identification of Important Variable Blocks for Selectivity; 3.2.6.4 Contour Plots; 3.3 Applications; 3.3.1 DNA Minor Groove Binding - Compare AAA and GGG Double Helix; 3.3.2 Dihydrofolate Reductase; 3.3.3 Cyclooxygenase; 3.3.4 Penicillin Acylase; 3.3.5 Serine Proteases; 3.3.5.1 S1 Pocket; 3.3.5.2 P Pocket; 3.3.5.3 D Pocket; 3.3.6 CYP450; 3.3.7 Target Family Landscapes of Protein Kinases; 3.3.8 Matrix Metalloproteinases (MMPs); 3.3.9 Nitric Oxide Synthases; 3.3.10 PPARs; 3.3.11 Bile Acid Transportation System

3.3.12 Ephrin Ligands and Eph Kinases3.4 Discussion and Conclusion; 4 FLAP: 4-Point Pharmacophore Fingerprints from GRID; 4.1 Introduction; 4.1.1 Pharmacophores and Pharmacophore Fingerprints; 4.1.2 FLAP; 4.2 FLAP Theory; 4.3 Docking; 4.3.1 GLUE: A New Docking Program Based on Pharmacophores; 4.3.2 Case Study; 4.4 Structure Based Virtual Screening (SBVS); 4.5 Ligand Based Virtual Screening (LBVS); 4.6 Protein Similarity; 4.7 TOPP (Triplets of Pharmacophoric Points); 4.8 Conclusions; 5 The Complexity of Molecular Interaction: Molecular Shape Fingerprints by the PathFinder Approach

5.1 Introduction

This unique reference source, edited by the world's most respected expert on molecular interaction field software, covers all relevant principles of the GRID force field and its applications in medicinal chemistry. Entire chapters on 3D-QSAR, pharmacophore searches, docking studies, metabolism predictions and protein selectivity studies, among others, offer a concise overview of this emerging field. As an added bonus, this handbook includes a CD-ROM with the latest commercial versions of the GRID program and related software.