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Macromolecules in the body form noncovalent associations, such as DNA-protein or protein-protein complexes, that control and regulate numerous cellular functions. Understanding how changes in the concentration and conformation of these macromolecules can trigger physiological responses is essential for researchers developing drug therapies to treat diseases affected by these imbalances. Introduction to Macromolecular Binding Equilibria gives students in medicinal chemistry, pharmaceuticals, and bioengineering the necessary background in biophysical chemistry for research applications in drug discovery and development. Building upon a fundamental knowledge of calculus and physical chemistry, this compact, graduate-level text prepares students for advanced work in solution thermodynamics and binding phenomena and applying methods in this book to their own research. This book describes the underlying theory of binding phenomena and explains how to apply the binding polynomial approach for building models and interpreting data. It also covers practical considerations for setting up binding experiments and describes how to obtain true thermodynamic isotherms unbiased by model assumption via model-free analysis of binding data.
Macromolecules in the body form noncovalent associations, such as DNA-protein or protein-protein complexes, that control and regulate numerous cellular functions. Understanding how changes in the concentration and conformation of these macromolecules can trigger physiological responses is essential for researchers developing drug therapies to treat diseases affected by these imbalances. Introduction to Macromolecular Binding Equilibria gives students in medicinal chemistry, pharmaceuticals, and bioengineering the necessary background in biophysical chemistry for research applications in drug discovery and development. Building upon a fundamental knowledge of calculus and physical chemistry, this compact, graduate-level text prepares students for advanced work in solution thermodynamics and binding phenomena and applying methods in this book to their own research. This book describes the underlying theory of binding phenomena and explains how to apply the binding polynomial approach for building models and interpreting data. It also covers practical considerations for setting up binding experiments and describes how to obtain true thermodynamic isotherms unbiased by model assumption via model-free analysis of binding data.
Biochemistry For The Pharmaceutical Sciences Is A Concise, Practical Resource For Pharmacy Students To Apply And Expand Their Understanding Of Biochemistry As It Relates To Pharmacy Practice. With Pedagogical Features Designed To Make Complex Concepts Comprehensible, This Text Presents Biochemistry In A Clear And Comprehensible Format With A Pharmaceutical Focus. Real-World Applications Of Scientific Principles Allow Students To Better Comprehend And Appreciate How Biochemistry Will Impact Their Professional Practice. Chapter Features - Learning Objectives - Glossary Of Key Terms - Clinical Application Boxes - Discussion Questions Includes Over 400 Figures And Tables To Help Students Formulate An Understanding Of The Mathematical, Chemical, And Biological Concepts. Instructor Resources: Powerpoint Slides, Image Bank
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