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  • 1
    Online Resource
    Online Resource
    Chemoinformatics approaches to virtual screening (2008)
    Cambridge : Royal Society of Chemistry
    Details
    UID:
    b3kat_BV037195475
    Format: 1 Online-Ressource (356 p.) , 89 b&w, ill
    ISBN: 1847558879 , 9781847558879
    Note: Focuses on chemoinformatics approaches applicable to virtual screening of very large available collections of chemical compounds to identify novel biologically active molecules, Chemoinformatics is broadly a scientific discipline encompassing the design, creation, organization, management, retrieval, analysis, dissemination, visualization and use of chemical information. It is distinct from other computational molecular modeling approaches in that it uses unique representations of chemical structures in the form of multiple chemical descriptors; has its own metrics for defining similarity and diversity of chemical compound libraries; and applies a wide array of statistical, data mining and machine learning techniques to very large collections of chemical compounds in order to establish robust relationships between chemical structure and its physical or biological properties. Chemoinformatics addresses a broad range of problems in chemistry and biology; however, the most commonly known applications of chemoinformatics approaches have been arguably in the area of drug discovery where chemoinformatics tools have played a central role in the analysis and interpretation of structure-property data collected by the means of modern high throughput screening. Early stages in modern drug discovery often involved screening small molecules for their effects on a selected protein target or a model of a biological pathway. In the past fifteen years, innovative technologies that enable rapid synthesis and high throughput screening of large libraries of compounds have been adopted in almost all major pharmaceutical and biotech companies. As a result, there has been a huge increase in the number of compounds available on a routine basis to quickly screen for novel drug candidates against new targets/pathways. In contrast, such technologies have rarely become available to the , academic research community, thus limiting its ability to conduct large scale chemical genetics or chemical genomics research. However, the landscape of publicly available experimental data collection methods for chemoinformatics has changed dramatically in very recent years. The term "virtual screening" is commonly associated with methodologies that rely on the explicit knowledge of three-dimensional structure of the target protein to identify potential bioactive compounds. Traditional docking protocols and scoring functions rely on explicitly defined three dimensional coordinates and standard definitions of atom types of both receptors and ligands. Albeit reasonably accurate in many cases, conventional structure based virtual screening approaches are relatively computationally inefficient, which has precluded them from screening really large compound collections. Significant progress has been achieved over many years of research in developing many structure based virtual screening approaches. This book is the first monograph that summarizes innovative applications of efficient chemoinformatics approaches towards the goal of screening large chemical libraries. The focus on virtual screening expands chemoinformatics beyond its traditional boundaries as a synthetic and data-analytical area of research towards its recognition as a predictive and decision support scientific discipline. The approaches discussed by the contributors to the monograph rely on chemoinformatics concepts such as: -representation of molecules using multiple descriptors of chemical structures -advanced chemical similarity calculations in multidimensional descriptor spaces -the use of advanced machine learning and data mining approaches for building quantitative and predictive structure activity models -the use of chemoinformatics methodologies for the analysis of drug-likeness and property prediction , -the emerging trend on combining chemoinformatics and bioinformatics concepts in structure based drug discovery The chapters of the book are organized in a logical flow that a typical chemoinformatics project would follow - from structure representation and comparison to data analysis and model building to applications of structure-property relationship models for hit identification and chemical library design. It opens with the overview of modern methods of compounds library design, followed by a chapter devoted to molecular similarity analysis. Four sections describe virtual screening based on the using of molecular fragments, 2D pharmacophores and 3D pharmacophores. Application of fuzzy pharmacophores for libraries design is the subject of the next chapter followed by a chapter dealing with QSAR studies based on local molecular parameters. Probabilistic approaches based on 2D descriptors in assessment of biological activities are also described with an overview of the modern methods and software for ADME prediction. The book ends with a chapter describing the new approach of coding the receptor binding sites and their respective ligands in multidimensional chemical descriptor space that affords an interesting and efficient alternative to traditional docking and screening techniques. Ligand-based approaches, which are in the focus of this work, are more computationally efficient compared to structure-based virtual screening and there are very few books related to modern developments in this field. The focus on extending the experiences accumulated in traditional areas of chemoinformatics research such as Quantitative Structure Activity Relationships (QSAR) or chemical similarity searching towards virtual screening make the theme of this monograph essential reading for researchers in the area of computer-aided drug discovery. However, due to its generic data- , analytical focus there will be a growing application of chemoinformatics approaches in multiple areas of chemical and biological research such as synthesis planning, nanotechnology, proteomics, physical and analytical chemistry and chemical genomics
    Language: English
    Subjects: Chemistry/Pharmacy
    RVK:
    VC 6250
    Keywords: Computational chemistry ; Struktur-Aktivitäts-Beziehung ; QSAR ; Screening ; Aufsatzsammlung
    URL: Volltext
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  • 2
    Online Resource
    Online Resource
    Chemoinformatics approaches to virtual screening (2008)
    Cambridge : Royal Society of Chemistry
    Details
    UID:
    gbv_1685428452
    Format: 356 p , Online-Ressource , 89 b&w, ill
    Edition: RSC eBook Collection 1968-2009
    Content: Focuses on chemoinformatics approaches applicable to virtual screening of very large available collections of chemical compounds to identify novel biologically active molecules, Chemoinformatics is broadly a scientific discipline encompassing the design, creation, organization, management, retrieval, analysis, dissemination, visualization and use of chemical information. It is distinct from other computational molecular modeling approaches in that it uses unique representations of chemical structures in the form of multiple chemical descriptors; has its own metrics for defining similarity and diversity of chemical compound libraries; and applies a wide array of statistical, data mining and machine learning techniques to very large collections of chemical compounds in order to establish robust relationships between chemical structure and its physical or biological properties. Chemoinformatics addresses a broad range of problems in chemistry and biology; however, the most commonly known applications of chemoinformatics approaches have been arguably in the area of drug discovery where chemoinformatics tools have played a central role in the analysis and interpretation of structure-property data collected by the means of modern high throughput screening. Early stages in modern drug discovery often involved screening small molecules for their effects on a selected protein target or a model of a biological pathway. In the past fifteen years, innovative technologies that enable rapid synthesis and high throughput screening of large libraries of compounds have been adopted in almost all major pharmaceutical and biotech companies. As a result, there has been a huge increase in the number of compounds available on a routine basis to quickly screen for novel drug candidates against new targets/pathways. In contrast, such technologies have rarely become available to the academic research community, thus limiting its ability to conduct large scale chemical genetics or chemical genomics research. However, the landscape of publicly available experimental data collection methods for chemoinformatics has changed dramatically in very recent years. The term "virtual screening" is commonly associated with methodologies that rely on the explicit knowledge of three-dimensional structure of the target protein to identify potential bioactive compounds. Traditional docking protocols and scoring functions rely on explicitly defined three dimensional coordinates and standard definitions of atom types of both receptors and ligands. Albeit reasonably accurate in many cases, conventional structure based virtual screening approaches are relatively computationally inefficient, which has precluded them from screening really large compound collections. Significant progress has been achieved over many years of research in developing many structure based virtual screening approaches. This book is the first monograph that summarizes innovative applications of efficient chemoinformatics approaches towards the goal of screening large chemical libraries. The focus on virtual screening expands chemoinformatics beyond its traditional boundaries as a synthetic and data-analytical area of research towards its recognition as a predictive and decision support scientific discipline. The approaches discussed by the contributors to the monograph rely on chemoinformatics concepts such as: -representation of molecules using multiple descriptors of chemical structures -advanced chemical similarity calculations in multidimensional descriptor spaces -the use of advanced machine learning and data mining approaches for building quantitative and predictive structure activity models -the use of chemoinformatics methodologies for the analysis of drug-likeness and property prediction -the emerging trend on combining chemoinformatics and bioinformatics concepts in structure based drug discovery The chapters of the book are organized in a logical flow that a typical chemoinformatics project would follow - from structure representation and comparison to data analysis and model building to applications of structure-property relationship models for hit identification and chemical library design. It opens with the overview of modern methods of compounds library design, followed by a chapter devoted to molecular similarity analysis. Four sections describe virtual screening based on the using of molecular fragments, 2D pharmacophores and 3D pharmacophores. Application of fuzzy pharmacophores for libraries design is the subject of the next chapter followed by a chapter dealing with QSAR studies based on local molecular parameters. Probabilistic approaches based on 2D descriptors in assessment of biological activities are also described with an overview of the modern methods and software for ADME prediction. The book ends with a chapter describing the new approach of coding the receptor binding sites and their respective ligands in multidimensional chemical descriptor space that affords an interesting and efficient alternative to traditional docking and screening techniques. Ligand-based approaches, which are in the focus of this work, are more computationally efficient compared to structure-based virtual screening and there are very few books related to modern developments in this field. The focus on extending the experiences accumulated in traditional areas of chemoinformatics research such as Quantitative Structure Activity Relationships (QSAR) or chemical similarity searching towards virtual screening make the theme of this monograph essential reading for researchers in the area of computer-aided drug discovery. However, due to its generic data-analytical focus there will be a growing application of chemoinformatics approaches in multiple areas of chemical and biological research such as synthesis planning, nanotechnology, proteomics, physical and analytical chemistry and chemical genomics
    Note: Ebook , Preface-- 1 - Fragment Descriptors in SAR/QSAR/QSPR studies, molecular similarity analysis and in virtual screening-- Introduction-- Historical survey-- Main characteristics of Fragment Descriptors-- Types of Fragments-- Simple Fixed Types-- WLN and SMILES Fragments-- Atom-Centered Fragments-- Bond-Centered Fragments-- Maximum Common Substructures-- Atom Pairs and Topological Multiplets-- Substituents and Molecular Frameworks-- Basic Subgraphs-- Mined Subgraphs-- Random Subgraphs-- Library Subgraphs-- Fragments describing supramolecular systems and chemical reactions-- Storage of fragments' information-- Fragment's Connectivity-- Generic Graphs-- Labeling Atoms-- Application in Virtual Screening and In Silico Design-- Filtering-- Similarity Search-- SAR Classification (Probabilistic) Models-- QSAR/QSPR Regression Models-- In Silico Design-- Limitations of Fragment Descriptors-- Conclusion-- 2 - Topological Pharmacophores-- Introduction-- 3D pharmacophore models and descriptors-- Topological pharmacophores-- Topological pharmacophores from 2D-aligments-- Topological pharmacophores from 2D pharmacophore fingerprints-- Topological index-based 'pharmacophores'?-- Topological pharmacophores from 2D-aligments-- Topological pharmacophores from pharmacophore fingerprints-- Topological pharmacophore pair fingerprints-- Topological pharmacophore triplets-- Similarity searching with pharmacophore fingerprints - Technical Issues-- Similarity searching with pharmacophore fingerprints - Some Examples-- Machine-learning of Topological Pharmacophores from Fingerprints-- Topological index-based 'pharmacophores'?-- Conclusions-- 3 - Pharmacophore-based Virtual Screening in Drug Discovery-- Introduction-- Virtual Screening Methods-- Chemical Feature-based Pharmacophores-- The Term "3D Pharmacophore"-- Feature Definitions and Pharmacophore Representation-- Hydrogen bonding interactions-- Lipophilic areas-- Aromatic interactions-- Charge-transfer interactions-- Customization and definition of new features-- Current super-positioning techniques for aligning 3D pharmacophores and molecules-- Generation and Use of Pharmacophore Models-- Ligand-based Pharmacophore Modeling-- Structure-based Pharmacophore Modeling-- Inclusion of Shape Information-- Qualitative vs. Quantitative Pharmacophore Models-- Validation of Models for Virtual Screening-- Application of Pharmacophore Models in Virtual Screening-- Pharmacophore Models as Part of a Multi-Step Screening Approach-- Antitarget and ADME(T) Screening Using Pharmacophores-- Pharmacophore Models for Activity Profiling and Parallel Virtual Screening-- Pharmacophore Method Extensions and Comparisons to Other Virtual Screening Methods-- Topological Fingerprints-- Shape-based Virtual Screening-- Docking Methods-- Pharmacophore Constraints Used in Docking-- Further Reading-- Summary and Conclusion-- 4 - Molecular Similarity Analysis in Virtual Screening-- Ligand-Based Virtual Screening-- Foundations of Molecular Similarity Analysis-- Molecular Similarity and Chemical Spaces-- Similarity Measures-- Activity Landscapes-- Analyzing the Nature of Structure-Activity Relationships-- Relationships between different SARs-- SARs and target-ligand interactions-- Qualitative SAR characterization-- Quantitative SAR characterization-- Implications for molecular similarity analysis and virtual screening-- Strengths and Limitations of Similarity Methods-- Conclusion and Future Perspectives-- 5 - Molecular Field Topology Analysis in drug design and virtual screening-- Introduction: local molecular parameters in QSAR, drug design and virtual screening-- Supergraph-based QSAR models-- Rationale and history-- Molecular Field Topology Analysis (MFTA)-- General principles-- Local molecular descriptors: facets of ligand-biotarget interaction-- Construction of molecular supergraph-- Formation of descriptor matrix-- Statistical analysis-- Applicability control-- From MFTA model to drug design and virtual screening-- MFTA models in biotarget and drug action analysis-- MFTA models in virtual screening-- MFTA-based virtual screening of compound databases-- MFTA-based virtual screening of generated structure libraries-- Conclusion-- 6 - Probabilistic approaches in activity prediction-- Introduction-- Biological Activity-- Dose-Effect Relationships-- Experimental Data-- Probabilistic Ligand-Based Virtual Screening Methods-- Preparation of Training Sets-- Creation of Evaluation Sets-- Mathematical Approaches-- Evaluation of Prediction Accuracy-- Single-Targeted vs. Multi-Targeted Virtual Screening-- PASS Approach-- Biological Activities Predicted by PASS-- Chemical Structure Description in PASS-- SAR Base-- Algorithm of Activity Spectrum Estimation-- Interpretation of Prediction Results-- Selection of the Most Prospective Compounds-- Conclusions-- 7 - Fragment-based de novo design of druglike molecules-- Introduction--From Molecules to Fragments-- From Fragments to Molecules-- Scoring the Design-- Conclusions and Outlook-- 8 - Early ADME/T predictions: a toy or a tool?-- Introduction-- Which properties are important for early drug discovery?-- Physico-chemical profiling-- Lipophilicity-- Solubility-- Data availability and accuracy-- Models-- Why models don't work: the challenge of the Applicability Domain-- AD based on similarity in the descriptor space-- AD based on similarity in the property-based space-- How reliable are predictions of physico-chemical properties?-- Available Data for ADME/T biological properties-- Absorption-- Data-- Models-- Distribution-- Data-- Models-- The usefulness of ADME/T models is limited by available data-- Conclusions-- 9 - Compound Library Design - Principles and Applications-- Introduction to Compound Library Design-- Methods for Compound Library Design-- Design for Specific Biological Activities-- Similarity Guided Design of Targeted Libraries-- Diversity Based Design of General Screening Libraries-- Pharmacophore Guided Design of Focused Compound Libraries-- QSAR Based Targeted Library Design-- Protein Structure Based Methods for Compound Library Design-- Design for Developability or Drug-likeness-- Rule & Alert Based Approaches-- QSAR Based ADMET Models-- Undesirable Functionality Filters-- Design for Multiple Objectives and Targets Simultaneously-- Concluding Remarks-- 10 - Integrated Chemo- and Bioinformatics Approaches to Virtual Screening-- Introduction-- Availability of large compound collections for virtual screening-- NIH Molecular Libraries Roadmap Initiative and the PubChem database-- Other chemical databases in public domain-- Structure based virtual screening-- Major methodologies-- Challenges and limitations of current approaches-- The implementation of cheminformatics concepts in structure based virtual screening-- Predictive QSAR models as virtual screening tools-- Critical Importance of model validation-- Applicability domains and QSAR model acceptability criteria-- Predictive QSAR modeling workflow-- Examples of application-- Structure based chemical descriptors of protein ligand interface: the EnTESS method-- Derivation of the EnTESS descriptors-- Validation of the EnTESS descriptors for binding affinity prediction-- Structure based cheminformatics approach to virtual screening: the CoLiBRI method-- The representation of three-dimensional active sites in multidimensional chemistry space-- The mapping between chemistry spaces of active sites and ligands-- Summary and Conclusions.
    Additional Edition: ISBN 1847558879
    Additional Edition: ISBN 9781847558879
    Language: English
    Subjects: Chemistry/Pharmacy
    RVK:
    VC 6250
    Keywords: Electronic books
    URL: Volltext  (Deutschlandweit zugänglich)
    URL: Volltext  (Deutschlandweit zugänglich)
    URL: Volltext
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  • 3
    Online Resource
    Online Resource
    De novo molecular design / (2014)
    Weinheim, Germany :Wiley-VCH,
    Details
    UID:
    almafu_9959327270902883
    Format: 1 online resource (xxiv, 553 pages)
    ISBN: 9783527677016 , 3527677011 , 1299988431 , 9781299988439 , 9783527677009 , 3527677003 , 3527677038 , 9783527677030 , 352767702X , 9783527677023
    Content: Systematically examining current methods and strategies, this ready reference covers a wide range of molecular structures, from organic-chemical drugs to peptides, proteins and nucleic acids, in line with emerging new drug classes derived from biomacromolecules. A leader in the field and one of the pioneers of this young discipline has assembled here the most prominent experts from across the world to provide first-hand knowledge. While most of their methods and examples come from the area of pharmaceutical discovery and development, the approaches are equally applicable for molecular probe.
    Note: De novo Molecular Design; Title Page; Copyright; Contents; List of Contributors; Foreword; Preface; Chapter 1 De Novo Design: From Models to Molecules; 1.1 Molecular Representation; 1.2 The Molecular Design Cycle; 1.3 Receptor-Ligand Interaction; 1.4 Modeling Fitness Landscapes; 1.4.1 Na ̈ive Bayes Classifier; 1.4.2 Artificial Neural Network; 1.4.3 Support Vector Machine; 1.4.4 Gaussian Process; 1.5 Strategies for Compound Construction; 1.6 Strategies for Compound Scoring; 1.6.1 Receptor-Based Scoring; 1.6.2 Ligand-Based Scoring; 1.7 Flashback Forward: A Brief History of De Novo Drug Design. , 1.8 ConclusionsAcknowledgments; References; Chapter 2 Coping with Complexity in Molecular Design; 2.1 Introduction; 2.2 A Simple Model of Molecular Interactions; 2.3 Enhancements to the Simple Complexity Model; 2.4 Enumerating and Sampling the Complexity of Chemical Space; 2.5 Validation of the Complexity Model; 2.6 Reductionism and Drug Design; 2.7 Complexity and Information Content as a Factor in De Novo Design; 2.8 Complexity of Thermodynamic Entropy and Drug Design; 2.9 Complex Systems, Emergent Behavior, and Molecular Design; Acknowledgments; References; Chapter 3 The Human Pocketome. , 3.1 Predicted Pockets3.2 Compilation of the Validated Human Pocketome; 3.3 Diversity and Redundancy of the Human Pocketome; 3.4 Compound Activity Prediction by Ligand-Pocket Docking and Scoring; 3.4.1 Optimizing Pocket Sets for Reliable Docking and Scoring Results; 3.4.2 Difficult Cases: Unusually Large and Multifunctional Pockets; 3.5 Pocketome-Derived 3D Chemical Fields as Activity Prediction Models; 3.6 Clustering the Ligands by Function and Subpockets; 3.7 Conclusions; Acknowledgments; References; Chapter 4 Structure-Based De Novo Drug Design; 4.1 Introduction. , 4.2 Current Progress in SBDND Methodologies4.2.1 Identification of Binding Site; 4.2.2 Design of Molecules; 4.2.2.1 Atom-Based versus Fragment-Based Methods; 4.2.2.2 Pharmacophore-Based Methods; 4.2.3 Searching the Chemical Space; 4.2.3.1 Monte Carlo-Based Methods; 4.2.3.2 Evolutionary Algorithms; 4.2.4 Scoring Methods; 4.2.4.1 Force-Field-Based Scoring Functions; 4.2.4.2 Empirical Scoring Functions; 4.2.4.3 Knowledge-Based Scoring Functions; 4.2.4.4 Consensus Scoring; 4.2.5 Synthetic Accessibility; 4.3 Recent Applications of Structure-Based De Novo Design; 4.4 Perspectives and Conclusion. , AcknowledgmentReferences; Chapter 5 De Novo Design by Fragment Growing and Docking; 5.1 Introduction; 5.2 Case Study I: High-Throughput Screening with Dr Feils; 5.2.1 Target Identification; 5.2.2 Small-Molecule Library Design; 5.2.2.1 Computer Docking; 5.2.2.2 Pharmacophore Searching; 5.2.3 High-Throughput Screening; 5.2.4 Optimization; 5.3 Case Study II: Fragment-Based Drug Design with Dr Goode; 5.3.1 Library Generation; 5.3.1.1 Computational Techniques for Library Refinement; 5.3.2 Detection Methods; 5.3.2.1 Functional/High-Concentration Screening.
    Additional Edition: Print version: De novo molecular design. [S.l.] : Wiley-Vch Verlag Gmbh, 2013 ISBN 3527334610
    Language: English
    Keywords: Electronic books. ; Electronic books. ; Electronic books. ; Electronic books.
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527677016
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527677016
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527677016
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  • 4
    Online Resource
    Online Resource
    Virtual screening for bioactive molecules / (2000)
    Weinheim ; : Wiley-VCH,
    Details
    UID:
    almafu_9959328952002883
    Format: 1 online resource (xviii, 307 pages) : , illustrations
    Edition: Electronic reproduction. [Place of publication not identified] : HathiTrust Digital Library, 2010.
    ISBN: 9783527613090 , 3527613099 , 9783527613083 , 3527613080 , 1282010352 , 9781282010352
    Series Statement: Methods and principles in medicinal chemistry ; v. 10
    Content: Recent progress in high-throughput screening, combinatorial chemistry and molecular biology has radically changed the approach to drug discovery in the pharmaceutical industry. New challenges in synthesis result in new analytical methods. At present, typically 100,000 to one million molecules have to be tested within a short period and, therefore, highly effective screening methods are necessary for today's researchers - preparing and characterizing one compound after another belongs to the past. Intelligent, computer-based search agents are needed and "virtual screening" provides so.
    Note: High-throughput screening and virtual screening: entry points to drug discovery / , Library filtering systems and prediction of drug-like properties / , Prediction of physicochemical properties / , Descriptor-based similarity measures for screening chemical databases / , Modelling structure-activity relationships / , Database profiling by neural networks / , Pharmacophore pattern application in virtual screening, library design and QSAR / , Evolutionary molecular design in virtual fitness landscapes / , Practical approaches to evolutionary design / , Understanding receptor-ligand interactions as a prerequisite for virtual screening / , Structure-based library design / , The measurement of molecular diversity / , Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002.
    Additional Edition: Print version: Virtual screening for bioactive molecules. Weinheim ; New York : Wiley-VCH, ©2000 ISBN 9783527301539
    Additional Edition: ISBN 3527301534
    Language: English
    Subjects: Chemistry/Pharmacy
    RVK:
    VC 6250
    RVK:
    VK 8500
    Keywords: Electronic books. ; Electronic books. ; Electronic books.
    DOI: 10.1002/9783527613083
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527613083
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527613083
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527613083
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  • 5
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    Protein-ligand interactions from molecular recognition to drug design / (2003)
    Weinheim :Wiley-VCH,
    Details
    UID:
    almafu_9959328721302883
    Format: 1 online resource (xx, 242 pages) : , illustrations
    ISBN: 3527605517 , 9783527605514 , 3527601813 , 9783527601813
    Series Statement: Methods and principles in medicinal chemistry ; v. 19
    Content: The lock-and-key principle formulated by Emil Fischer as early as the end of the 19th century has still not lost any of its significance for the life sciences. The basic aspects of ligand-protein interaction may be summarized under the term 'molecular recognition' and concern the specificity as well as stability of ligand binding. Molecular recognition is thus a central topic in the development of active substances, since stability and specificity determine whether a substance can be used as a drug. Nowadays, computer-aided prediction and intelligent molecular design make a large contribution.
    Note: Protein-Ligand Interactions From Molecular Recognition to Drug Design; Contents; Preface; A Personal Foreword; List of Contributors; List of Abbreviations; Prologue; 1 Prediction of Non-bonded Interactions in Drug Design; 2 Introduction to Molecular Recognition Models; 3 Experimental Approaches to Determine the Thermodynamics of Protein-Ligand Interactions; 4 The Biophore Concept; 5 Receptor-Ligand Interaction; 6 Hydrogen Bonds in Protein-Ligand Complexes; 7 Principles of Enzyme-Inhibitor Design; 8 Tailoring Protein Scaffolds for Ligand Recognition. , English.
    Additional Edition: Print version: Protein-ligand interactions from molecular recognition to drug design. Weinheim : Wiley-VCH, ©2003 ISBN 3527305211
    Language: English
    Keywords: Electronic books. ; Electronic books. ; Electronic books.
    DOI: 10.1002/3527601813
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/3527601813
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/3527601813
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/3527601813
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  • 6
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    Molecular design : concepts and applications (2008)
    Weinheim :WILEY-VCH,
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    UID:
    almafu_BV023069491
    Format: XV, 262 S. : , Ill., graph. Darst. ; , 240 mm x 170 mm.
    ISBN: 978-3-527-31432-4 , 3-527-31432-6
    Language: English
    Subjects: Chemistry/Pharmacy
    RVK:
    VC 6250
    RVK:
    VE 5300
    Keywords: Arzneimitteldesign
    URL: Inhaltstext
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    Molecular design : concepts and applications (2008)
    Weinheim :WILEY-VCH,
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    UID:
    almahu_BV023069491
    Format: XV, 262 S. : , Ill., graph. Darst. ; , 240 mm x 170 mm.
    ISBN: 978-3-527-31432-4 , 3-527-31432-6
    Language: English
    Subjects: Chemistry/Pharmacy
    RVK:
    VC 6250
    RVK:
    VE 5300
    Keywords: Arzneimitteldesign
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    Sie werden aus Saba alle kommen : Kantate BWV 65 zum Epiphaniasfest ... (1972)
    Kassel : Stauda
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    UID:
    b3kat_BV024076636
    Format: 1 Schallpl. , 30 cm
    Series Statement: Soli Deo gloria
    Uniform Title: Kantaten, BWV 65
    Note: Enth. außerdem: 1 unselbständiges Werk
    Language: Undetermined
    Keywords: Schallplatte
    Author information: Bach, Johann Sebastian 1685-1750
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    b3kat_BV023976052
    Format: 1 Schallpl. , 30 cm
    Uniform Title: Kantaten, BWV 207 a
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    Language: German
    Keywords: Schallplatte
    Author information: Wollitz, Eduard 1928-2022
    Author information: Bach, Johann Sebastian 1685-1750
    Author information: Reichelt, Ingeborg 1928-
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    Protein-Design in machina : künstliche neuronale Netze und simulierte molekulare Evolution (1994)
    Aachen :Shaker,
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    almafu_BV026147313
    Format: 121, [22] S. : graph. Darst.
    Edition: Als Ms. gedr.
    ISBN: 3-86111-830-0
    Series Statement: Berichte aus der Physik
    Note: Zugl.: Berlin, Freie Univ., Diss., 1994
    Language: German
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