Computational Methods for GPCR Drug Discovery

Computational Methods for GPCR Drug Discovery
Author: Alexander Heifetz
Publisher: Humana Press
Total Pages: 436
Release: 2017-11-30
Genre: Medical
ISBN: 9781493974641
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This volume looks at modern computational strategies and techniques used in GPCR drug discovery including structure and ligand-based approaches and cheminformatics. The chapters in this book describe how these approaches can be applied to address key drug discovery issues, such as receptor structure modelling, function and dynamics, prediction of protein-water-ligand interactions and binding kinetics, free energy of binding, interconversion between agonists and antagonists, deorphanization of GPCRs, and the discovery of biased and allosteric modulators. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary software and tools, step-by-step, readily reproducible modelling protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and unique,Computational Methods for GPCR Drug Discovery is a valuable resource for structural and molecular biologists, computational and medicinal chemists, pharmacologists, and drug designers.

Computational and Structural Approaches to Drug Discovery

Computational and Structural Approaches to Drug Discovery
Author: Robert M. Stroud
Publisher: Royal Society of Chemistry
Total Pages: 171
Release: 2008
Genre: Medical
ISBN: 0854043659
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This insightful book represents the experience and understanding of the global experts in the field and spotlights both the structural and medicinal chemistry aspects of drug design. The need to 'encode' the physiological factors of pharmacology, a key area, is explored.

Computational Drug Discovery

Computational Drug Discovery
Author: Vasanthanathan Poongavanam
Publisher: John Wiley & Sons
Total Pages: 882
Release: 2024-01-19
Genre: Science
ISBN: 3527840737
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Computational Drug Discovery A comprehensive resource that explains a wide array of computational technologies and methods driving innovation in drug discovery Computational Drug Discovery: Methods and Applications (2 volume set) covers a wide range of cutting-edge computational technologies and computational chemistry methods that are transforming drug discovery. The book delves into recent advances, particularly focusing on artificial intelligence (AI) and its application for protein structure prediction, AI-enabled virtual screening, and generative modeling for compound design. Additionally, it covers key technological advancements in computing such as quantum and cloud computing that are driving innovations in drug discovery. Furthermore, dedicated chapters that addresses the recent trends in the field of computer aided drug design, including ultra-large-scale virtual screening for hit identification, computational strategies for designing new therapeutic modalities like PROTACs and covalent inhibitors that target residues beyond cysteine are also presented. To offer the most up-to-date information on computational methods utilized in computational drug discovery, it covers chapters highlighting the use of molecular dynamics and other related methods, application of QM and QM/MM methods in computational drug design, and techniques for navigating and visualizing the chemical space, as well as leveraging big data to drive drug discovery efforts. The book is thoughtfully organized into eight thematic sections, each focusing on a specific computational method or technology applied to drug discovery. Authored by renowned experts from academia, pharmaceutical industry, and major drug discovery software providers, it offers an overview of the latest advances in computational drug discovery. Key topics covered in the book include: Application of molecular dynamics simulations and related approaches in drug discovery The application of QM, hybrid approaches such as QM/MM, and fragment molecular orbital framework for understanding protein-ligand interactions Adoption of artificial intelligence in pre-clinical drug discovery, encompassing protein structure prediction, generative modeling for de novo design, and virtual screening. Techniques for navigating and visualizing the chemical space, along with harnessing big data to drive drug discovery efforts. Methods for performing ultra-large-scale virtual screening for hit identification. Computational strategies for designing new therapeutic models, including PROTACs and molecular glues. In silico ADMET approaches for predicting a variety of pharmacokinetic and physicochemical endpoints. The role of computing technologies like quantum computing and cloud computing in accelerating drug discovery This book will provide readers an overview of the latest advancements in computational drug discovery and serve as a valuable resource for professionals engaged in drug discovery.

Physico-chemical and Computational Approaches to Drug Discovery

Physico-chemical and Computational Approaches to Drug Discovery
Author: Javier Luque
Publisher: Royal Society of Chemistry
Total Pages: 443
Release: 2012
Genre: Medical
ISBN: 1849733538
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This title covers a wide range of topics relevant to the development of drugs. It provides a comprehensive description of the major methodological strategies available for rational drug discovery.

Computational Approaches to Nuclear Receptors

Computational Approaches to Nuclear Receptors
Author: Pietro Cozzini
Publisher: Royal Society of Chemistry
Total Pages: 191
Release: 2012
Genre: Medical
ISBN: 1849733643
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Nuclear receptors (NR) are ligand-induced activated transcription factors that are involved in numerous biological processes. Since the 1990's when the first structures were determined by means of X ray diffraction, the number of NR structures has increased considerably. Moreover several "omics" projects (genomics, pharmcogenomics and proteomics) have opened up great opportunities for the discovery of new targets, the characterization of abnormal protein patterns, the selection of "tailored" drugs and the evaluation of drug efficacy even with a lack of structural data. Furthermore, structure-based drug design, computational methods for in silico screening and nanobiotechnology- based tools are simplifying this time-consuming and money-intensive research of lead compounds and, possibly, new drugs. Biological interactions such as those that occur between a protein and ligand are concerted events where flexible molecules interact. Thus understanding flexibility of large molecules or biological complexes is of primary importance to help define the right model to approximate the reality for drug discovery, virtual screening, food safety analysis, etc. NRs are known as flexible targets, with many structural similarities, in particular for their Ligand Binding Domain: these similarities could be assumed to share behavioural qualities that belong to this class of compounds. Thus to supply a possible, complete and exhaustive answer to questions about the behaviour of NRs, their interactions with new potential drugs, endocrine disruptors such as animal and human food toxins, food additives or industry residuals, it is mandatory to approach the problem from a different point of view: a molecular modelling approach, steered synthesis, and in vitro and in vivo tests, etc. The aim of this book is to provide a state of the art review on investigations into Nuclear Receptors.

Computational Drug Discovery and Design

Computational Drug Discovery and Design
Author: Mohini Gore
Publisher: Springer Nature
Total Pages: 357
Release: 2023-10-09
Genre: Medical
ISBN: 1071634410
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This second edition provides new and updated methods and techniques for identification of drug target, binding sites prediction, high- throughput virtual screening, lead discovery and optimization, conformational sampling, prediction of pharmacokinetic properties using computer-based methodologies. Chapters also focus on the application of the latest artificial intelligence technologies for computer aided drug discovery. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary methods, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, Computational Drug Discovery and Design, Second Edition aims to effectively utilize computational methodologies in discovery and design of novel drugs.

Chemoinformatics in Drug Discovery

Chemoinformatics in Drug Discovery
Author: Tudor I. Oprea
Publisher: John Wiley & Sons
Total Pages: 515
Release: 2006-03-06
Genre: Science
ISBN: 3527604200
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This handbook provides the first-ever inside view of today's integrated approach to rational drug design. Chemoinformatics experts from large pharmaceutical companies, as well as from chemoinformatics service providers and from academia demonstrate what can be achieved today by harnessing the power of computational methods for the drug discovery process. With the user rather than the developer of chemoinformatics software in mind, this book describes the successful application of computational tools to real-life problems and presents solution strategies to commonly encountered problems. It shows how almost every step of the drug discovery pipeline can be optimized and accelerated by using chemoinformatics tools -- from the management of compound databases to targeted combinatorial synthesis, virtual screening and efficient hit-to-lead transition. An invaluable resource for drug developers and medicinal chemists in academia and industry.

Structural Biology in Drug Discovery

Structural Biology in Drug Discovery
Author: Jean-Paul Renaud
Publisher: John Wiley & Sons
Total Pages: 1367
Release: 2020-01-09
Genre: Medical
ISBN: 1118900502
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With the most comprehensive and up-to-date overview of structure-based drug discovery covering both experimental and computational approaches, Structural Biology in Drug Discovery: Methods, Techniques, and Practices describes principles, methods, applications, and emerging paradigms of structural biology as a tool for more efficient drug development. Coverage includes successful examples, academic and industry insights, novel concepts, and advances in a rapidly evolving field. The combined chapters, by authors writing from the frontlines of structural biology and drug discovery, give readers a valuable reference and resource that: Presents the benefits, limitations, and potentiality of major techniques in the field such as X-ray crystallography, NMR, neutron crystallography, cryo-EM, mass spectrometry and other biophysical techniques, and computational structural biology Includes detailed chapters on druggability, allostery, complementary use of thermodynamic and kinetic information, and powerful approaches such as structural chemogenomics and fragment-based drug design Emphasizes the need for the in-depth biophysical characterization of protein targets as well as of therapeutic proteins, and for a thorough quality assessment of experimental structures Illustrates advances in the field of established therapeutic targets like kinases, serine proteinases, GPCRs, and epigenetic proteins, and of more challenging ones like protein-protein interactions and intrinsically disordered proteins

DEVELOPMENT OF NOVEL COMPUTATIONAL METHODS FOR DRUG DISCOVERY AND REPURPOSING IN ONCOLOGIC DISEASES AND OTHER ILLNESSES

DEVELOPMENT OF NOVEL COMPUTATIONAL METHODS FOR DRUG DISCOVERY AND REPURPOSING IN ONCOLOGIC DISEASES AND OTHER ILLNESSES
Author: Naiem Tony Issa
Publisher:
Total Pages: 306
Release: 2015
Genre: Chemistry
ISBN:
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Targeting disease-related proteins is important for drug discovery, yet target-based method have not been fruitful. Bottlenecks involve: (1) establishing biologically valid drug- protein target associations, and (2) assessing the physiologic effects of those interactions at the systems level. Here we develop novel computational methods for overcoming these challenges. For the accurate prediction of drug-target interactions, we investigate the ability of two independent proteochemometric methods entitled R-TMFS and ES-Screen to prioritize known drug binders over decoys for diverse sets of protein targets. R-TMFS is a docking-based method that incorporates molecule shape and physicochemical properties, whereas ES-Screen is an electrostatics-driven method that accentuates the role of electrostatics in biomolecular recognition and binding kinetics. R-TMFS and ES-Screen are also used to predict previously un-reported kinase targets for the anti-hookworm medication mebendazole. Follow-up in vitro binding assays confirm mebendazole inhibition of multiple kinases such as ABL1, JAK2, JNK3, and RAF1, attesting to the repurposing potential of mebendazole for various cancers. For higher-order physiologic contextualization of drug-target signatures, we devised a computational platform named NET-TMFS that annotates drugs with biological endpoint effects including protein-protein interactions, signaling pathways, molecular functions, and disease effects. NET-TMFS recapitulated over 50 drug-disease, 100 drug-pathway, and drug-PPI associations established in the literature. NET-TMFS also predicted potential carcinogenic effects of the cholesterol-lowering drug ezetimibe, a phenomenon documented in clinical trials. In summary, we have developed novel computational methods for addressing major bottlenecks in the drug discovery process. We hope our methods will aid in finding effective therapeutics for many diseases with greater efficiency and lower costs.