Backed by leading authorities, this is a professional guide to successful compound screening in pharmaceutical research and chemical biology, including the chemoinformatic tools needed for correct data evaluation. Chapter authors from leading pharmaceutical companies as well as from Harvard University discuss such factors as chemical genetics, binding, cell-based and biochemical assays, the efficient use of compound libraries and data mining using cell-based assay results. For both academics and professionals in the pharma and biotech industries working on small molecule screening.
In High Throughput Screening, leading scientists and researchers expert in molecular discovery explain the diverse technologies and key techniques used in HTS and demonstrate how they can be applied generically. Writing to create precisely the introductory guidebook they wish had been available when they started in HTS, these expert seasoned authors illuminate the HTS process with richly detailed tutorials on the biological techniques involved, the management of compound libraries, and the automation and engineering approaches needed. Extensive discussions provide readers with all those key elements of pharmacology, molecular biology, enzymology, and biochemistry that will ensure the identification of suitable targets and screens, and detail the technology necessary to mine millions of data points for meaningful knowledge.
High throughput screening remains a key part of early stage drug and tool compound discovery, and methods and technologies have seen many fundamental improvements and innovations over the past 20 years. This comprehensive book provides a historical survey of the field up to the current state-of-the-art. In addition to the specific methods, this book also considers cultural and organizational questions that represent opportunities for future success. Following thought-provoking foreword and introduction from Professor Stuart Schreiber and the editors, chapters from leading experts across academia and industry cover initial considerations for screening, methods appropriate for different goals in small molecule discovery, newer technologies that provide alternative approaches to traditional miniaturization procedures, and practical aspects such as cost and resourcing. Within the context of their historical development, authors explain common pitfalls and their solutions. This book will serve as both a practical reference and a thoughtful guide to the philosophy underlying technological change in such a fast-moving area for postgraduates and researchers in academia and industry, particularly in the areas of chemical biology, pharmacology, structural biology and assay development.
The development of suitable assays, the integration of appropriate technology, and the effective management of the essential infrastructure are all critical to the success of any high-throughput screening (HTS) endeavor. However, few scientists have the multidisciplinary experience needed to control all aspects of an HTS drug discovery project. A Practical Guide to Assay Development and High-Throughput Screening in Drug Discovery integrates the experience of diverse experts who offer fundamental and practical guidance across numerous situations. The book first discusses assay developments for important target classes such as protein kinases and phosphatases, proteases, nuclear receptors, G protein-coupled receptors, ion channels, and heat shock proteins. It next examines assay developments for cell viability, apoptosis, and infectious diseases. The contributors explore the application of emerging technologies and systems, including image-based high content screening, RNA interference, and primary cells. Finally, they discuss the essential components of the integrated HTS process, such as screening automation, compound library management, the screening of natural products from botanical sources, and screening informatics. Designed to motivate researchers to bring further advances to the field, this volume provides practical guidance on how to initiate, validate, optimize, and manage a bioassay intended to screen large collections of compounds. Drawing on the knowledge from experts actively involved in assay development and HTS, this is a resource that is both comprehensive and focused.
Furnishing the latest interdisciplinary information on the most important and frequently the only investigational system available for discovery programs that address the effects of small molecules on newly discovered enzyme and receptor targets emanating from molecular biology, this timely resource facilitates the transition from classical to high throughput screening (HTS) systems and provides a solid foundation for the implementation and development of HTS in bio-based industries and associated academic environments.
Progress in Drug Research is a prestigious book series (founded in 1959) which provides extensive expert-written reviews on a wide spectrum of highly topical areas in current pharmaceutical and pharmalogical research. Each volume contains fully cross-referencing indexes which link the volumes together, forming a virtually encyclopaedic work. The series thus serves as an important, time-saving source of information for researchers concerned with drug research and all those who need to keep abreast of the many recent developments in the quest for new and better medicines. Volume 50 in the series includes: P.N. Kaul: Drug discovery: Past, present and future M. Rohmer: Isoprenoid biosynthesis via the mevalonate -- independent route, a novel target for antibacterial drugs G. Edwards and A.H. Weston: Endothelium, -derived hyperpolarizing factor -- a critical appraisal R.W. Rockhold: Glutamatic involvement in psychomotor stimulant action J.M. Colacino and K.A. Staschke: The identification and development of antiviral agents for the treatment of chronic hepatitis B virus infection T.D. Johnson: Polyamines and cerebral ischemia
Advances in genomics and combinatorial chemistry during the past two decades inspired innovative technologies and changes in the discovery and pre-clinical development paradigm with the goal of accelerating the process of bringing therapeutic drugs to market. Written by William Kisaalita, one of the foremost experts in this field, 3D Cell-Based Bio
"High Throughput Screening (HTS) is one of several hit identification approaches that are part of a developing and evolving toolbox for the discovery of pharmaceutical start points. HTS remains one of the most successful approaches, and therefore an important foundation of drug discovery. In High Throughput Screening: Methods, Techniques and Applications, leading industrial and academic experts in screening and drug discovery explain key technologies and methods while demonstrating how they can be applied to successful hit identification. Describing both traditional and emerging methods in detail, this book provides an overview of these methods to the reader that will serve both those new to the field and expert scientists alike. High Throughput Screening: Methods, Techniques and Applications provides readers with an outline of key elements in the areas of assay development, detailed descriptions of a range of both biochemical and cell-based screening methodologies and strategies, as well as highlighting important steps in data analysis. By describing the basic principles of methods commonly used in HTS, High Throughput Screening: Methods, Techniques and Applications provides an illuminating introduction to HTS, capturing established good practice within the field, thereby imparting both the industrial and academic researcher with the knowledge required to work effectively in both today's and the hit identification laboratories of the future"--
As the use of high-throughput screening expands and creates more interest in the academic community, the need for detailed reference materials becomes ever more pressing. Cell-Based Assays for High-Throughput Screening: Methods and Protocols aims to fill an important part of this need by providing an easily accessible reference volume for cell-based phenotypic screening. Leading researchers in the field contribute state-of-the-art methods with actionable protocols covering four major areas of study: model biological systems, screening modalities and assay systems, detection technologies, and approaches to data analysis. Written in the highly successful Methods in Molecular BiologyTM series format, each chapter includes a brief introduction to the subject, lists of necessary materials and reagents, step-by-step laboratory protocols, and a Notes section detailing tips on troubleshooting and avoiding known pitfalls. Cutting-edge and easy-to-use, Cell-Based Assays for High-Throughput Screening: Methods and Protocols presents an overview of relevant approaches, enabling the direct application of existing methods to new discoveries while also inspiring researchers to approach their screening projects in a conceptually modular fashion, enhancing the power to discover through new combinations of existing approaches.
Advances in chemistry, biology and genomics coupled with laboratory automation and computational technologies have led to the rapid emergence of the multidisciplinary field of chemical genomics. This edited text, with contributions from experts in the field, discusses the new techniques and applications that help further the study of chemical genomics. The beginning chapters provide an overview of the basic principles of chemical biology and chemical genomics. This is followed by a technical section that describes the sources of small-molecule chemicals; the basics of high-throughput screening technologies; and various bioassays for biochemical-, cellular- and organism-based screens. The final chapters connect the chemical genomics field with personalized medicine and the druggable genome for future discovery of new therapeutics. This book will be valuable to researchers, professionals and graduate students in many fields, including biology, biomedicine and chemistry.