Dynamic Analysis of Enzyme Systems
Author: Katsuya Hayashi
Publisher:
Published: 1986
Total Pages: 370
ISBN-13: 9780387154855
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Dynamic Analysis of Enzyme Systems
Author: Katsuya Hayashi
Publisher:
Published: 1986
Total Pages: 390
ISBN-13:
DOWNLOAD EBOOKEnzyme Kinetics
Author: Arthur R. Schulz
Publisher: Cambridge University Press
Published: 1994-11-25
Total Pages: 264
ISBN-13: 9780521449502
DOWNLOAD EBOOKThis text covers the field of steady-state kinetics from basic principles to the control of the multi-enzyme systems which constitute metabolic pathways. Emphasis is placed on the interpretation of the kinetic behaviour of enzyme-catalyzed reactions in terms of mechanisms. Algorithms are developed which can be implemented in computer programs for the derivation of equations. The treatment of steady-state enzyme kinetics is extended to allosteric enzymes and subunit interactions in polymeric enzymes. Principles are presented which provide for mathematical analysis of the control of multi-enzyme systems. Problems are included at the end of each chapter and their solutions are found at the end of the book. This book will be a useful text for advanced undergraduates and graduate students taking courses in enzyme chemistry and enzyme kinetics.
Enzyme Dynamics and Regulation
Author: P. Boon Chock
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 441
ISBN-13: 1461237440
DOWNLOAD EBOOKRecent developments in concepts and techniques have brought enzyme research to a changing yet exciting stage. Enzymes have served as indispensable tools in the phenomenal rise of molecular biology, and the resultant biotechnology thrusts enzymes to new heights and territories. This volume, the proceedings of a recent symposium on the Dynamics of Soluble and Immobilized Enzyme Systems, provides a current overview of the field to help scientists utilize long-established and newly acquired information.
Behavior of Enzyme Systems
Author: John M. Reiner
Publisher:
Published: 1969
Total Pages: 378
ISBN-13:
DOWNLOAD EBOOKEnzyme Kinetics
Author: Irwin H. Segel
Publisher: Wiley-Interscience
Published: 1993-05-06
Total Pages: 1002
ISBN-13:
DOWNLOAD EBOOKCovers enzyme kinetics from its most elementary aspects to such modern subjects as steady-state, multi-reactant kinetics and isotope exchange. Offers an understanding of the behavior of enzyme systems and the diagnostic tools used to characterize them and determine kinetic mechanisms. Illustrates and explains current subjects such as cumulative, concerted and cooperative feedback inhibition and metal ion activation.
Behavior of Enzyme Systems
Author: John M. Reiner
Publisher:
Published: 1969
Total Pages: 329
ISBN-13: 9780598882998
DOWNLOAD EBOOKOrganized Multienzyme Systems: Catalytic Properties
Author: G. Rickey Welch
Publisher: Elsevier
Published: 2012-12-02
Total Pages: 473
ISBN-13: 0323149103
DOWNLOAD EBOOKOrganized Multienzyme Systems: Catalytic Properties describes the kinetic and catalytic properties of organized enzyme systems. This book is composed of nine chapters that specifically cover both immobilized and naturally occurring systems. The first two chapters examine the nature and function of enzyme organization in the mitochondrion, as well as the structural/functional coupling of the components in energy-transducing membrane systems. These topics are followed by discussions on ""dynamic compartmentation"" in soluble multienzyme systems; the allosteric enzyme systems; and allosterism in reversibly adsorptive enzyme systems. Other chapters explore model studies with specific immobilized multienzyme sequences, as regards the analysis of microenvironmental effects, and the mathematical exposition on the kinetic analysis of multienzyme systems in homogeneous solution. The last chapters present some theoretical and experimental studies on the behavior of immobilized systems. These chapters also provide a speculative integrative view of the kind of functional coherence that may be operative in organized states in vivo. This book is of great value to cell biologists, biochemists, and enzyme scientists and researchers.
The Regulation of Cellular Systems
Author: Reinhart Heinrich
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 387
ISBN-13: 1461311616
DOWNLOAD EBOOKThere is no doubt that nowadays, biology benefits greatly from mathematics. In particular, cellular biology is, besides population dynamics, a field where tech niques of mathematical modeling are widely used. This is reflected by the large number of journal articles and congress proceedings published every year on the dynamics of complex cellular processes. This applies, among others, to metabolic control analysis, where the number of articles on theoretical fundamentals and experimental applications has increased for about 15 years. Surprisingly, mono graphs and textbooks dealing with the modeling of metabolic systems are still exceptionally rare. We think that now time is ripe to fill this gap. This monograph covers various aspects of the mathematical description of enzymatic systems, such as stoichiometric analysis, enzyme kinetics, dynamical simulation, metabolic control analysis, and evolutionary optimization. We believe that, at present, these are the main approaches by which metabolic systems can be analyzed in mathematical terms. Although stoichiometric analysis and enzyme kinetics are classical fields tracing back to the beginning of our century, there are intriguing recent developments such as detection of elementary biochemical syn thesis routes and rate laws for the situation of metabolic channeling, which we have considered worth being included. Evolutionary optimization of metabolic systems is a rather new field with promising prospects. Its goal is to elucidate the structure and functions of these systems from an evolutionary viewpoint.
Modelling the Dynamics of Biological Systems
Author: Erik Mosekilde
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 300
ISBN-13: 3642792901
DOWNLOAD EBOOKThe development of a proper description of the living world today stands as one of the most significant challenges to physics. A variety of new experimental techniques in molecular biology, microbiol ogy, physiology and other fields of biological research constantly expand our knowledge and enable us to make increasingly more detailed functional and structural descriptions. Over the past decades, the amount and complexity of available information have multiplied dramatically, while at the same time our basic understanding of the nature of regulation, behavior, morphogenesis and evolution in the living world has made only modest progress. A key obstacle is clearly the proper handling of the available data. This requires a stronger emphasis on mathematical modeling through which the consistency of the adopted explanations can be checked, and general princi ples may be extracted. As an even more serious problem, however, it appears that the proper physical concepts for the development of a theoretically oriented biology have not hitherto been available. Classical mechanics and equilibrium thermody namics, for instance, are inappropriate and useless in some of the most essen tial biological contexts. Fortunately, there is now convincing evidence that the concepts and methods of the newly developed fields of nonlinear dynam ics and complex systems theory, combined with irreversible thermodynamics and far-from-equilibrium statistical mechanics will enable us to move ahead with many of these problems.
