Biomolecular Kinetics : A Step-by-Step Guide / Clive R. Bagshaw.
By: Bagshaw, Clive R [author].
Material type: BookSeries: Foundations of Biochemistry and Biophysics.Publisher: Boca Raton, FL : CRC Press, 2017Edition: First edition.Description: 1 online resource (xxiv, 454 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9781315120355; 9781351637145.Subject(s): Anatomy | Applied Physics | Biochemistry | SCIENCE / Chemistry / Physical & Theoretical | SCIENCE / PhysicsAdditional physical formats: Print version: : No titleDDC classification: 572.44 Online resources: Click here to view.chapter 1 Introduction / Clive R. Bagshaw -- chapter 2 Kinetic Theory / Clive R. Bagshaw -- chapter 3 Some Underlying Physical Principles / Clive R. Bagshaw -- chapter 4 Enzyme Kinetics / Clive R. Bagshaw -- chapter 5 Beyond Enzyme Kinetics / Clive R. Bagshaw -- chapter 6 Experimental Strategies / Clive R. Bagshaw -- chapter 7 Instrumentation / Clive R. Bagshaw -- chapter 8 Data Analysis / Clive R. Bagshaw -- chapter 9 Single-Molecule Kinetics / Clive R. Bagshaw -- chapter 10 Kinetic Thinking: Back to the Future / Clive R. Bagshaw.
"a gem of a textbook which manages to produce a genuinely fresh, concise yet comprehensive guide"-Mark Leake, University of York"destined to become a standard reference.... Not just a 'how to' handbook but also an accessible primer in the essentials of kinetic theory and practice."-Michael Geeves, University of Kent" covers the entire spectrum of approaches, from the traditional steady state methods to a thorough account of transient kinetics and rapid reaction techniques, and then on to the new single molecule techniques"-Stephen Halford, University of Bristol This illustrated treatment explains the methods used for measuring how much a reaction gets speeded up, as well as the framework for solving problems such as ligand binding and macromolecular folding, using the step-by-step approach of numerical integration. It is a thoroughly modern text, reflecting the recent ability to observe reactions at the single-molecule level, as well as advances in microfluidics which have given rise to femtoscale studies. Kinetics is more important now than ever, and this book is a vibrant and approachable entry for anyone who wants to understand mechanism using transient or single molecule kinetics without getting bogged down in advanced mathematics. Clive R. Bagshaw is Emeritus Professor at the University of Leicester, U.K., and Research Associate at the University of California at Santa Cruz, U.S.A.
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