Description |
1 online resource (xviii, 148 pages) : illustrations |
Contents |
Cover -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Terminology -- List of Symbols and Acronyms -- 1 Introduction and Literature Survey -- 1.1 Introduction -- 1.2 Computational Processes Based on Biological Principles -- 1.2.1 Modeling Biological Processes -- 1.2.2 Artificial Neural Networks -- 1.3 Molecular and Biomolecular Electronics -- 1.3.1 Motivation -- 1.3.2 Molecular Electronics -- 1.3.3 Biomolecular Electronics -- 1.4 Biochemical Devices Based on Enzymic Reactions -- 1.5 Oscillations in Biochemical Systems -- 1.6 Kinetic Characteristics of Cyclic Enzyme Systems -- 2 Background and Goals of This Study -- 3 Materials and Methods -- 3.1 Materials -- 3.2 Instruments -- 3.3 Experimental Methods -- 3.3.1 Determination of Kinetic Constants -- 3.3.2 Determination of the Inhibition Constant for Inhibition of Glutathione Reductase by Glucose-6-Phosphate -- 3.3.3 Immobilization on Affi-Gel 10 -- 3.3.4 Assay for Glucose-6-Phosphate Dehydrogenase -- 3.3.5 Assay for Glutathione Reductase -- 3.4 Computational Methods -- 4 Results -- 4.1 The Basic System: Theoretical Considerations and Results -- 4.1.1 Characteristics of the Basic System -- 4.1.2 The Basic System as an Information-Processing Unit -- 4.1.3 Analytical Models for the Basic System -- 4.1.4 Results of Numerical Simulations for the Basic System -- 4.2 Neural Network8230;Type Biochemical Systems for Information Processing -- 4.2.1 Network A -- 4.2.2 Network B -- 4.2.3 Network C -- 4.3 The Basic System: Experimental Results -- 4.3.1 Deciding on the Experimental System -- 4.3.2 Kinetic Study of the Experimental System -- 4.3.3 Control of the Input Signal -- 4.3.4 The Basic System in a Fed-Batch Reactor -- 4.3.5 Internal Inhibition in the Basic System -- 4.3.6 Prediction of the Analytical Model Considering Internal Inhibition in a Fed-Batch Reactor -- 4.3.7 Immobilization of G6PDH and GR -- 4.3.8 The Basic System in a Packed Bed Reactor -- 4.4 The Extended Basic System: Theoretical Considerations and Results -- 4.4.1 Characteristics of the Extended Basic System -- 4.4.2 The Extended Basic System as an Information-Processing Unit -- 4.4.3 Analytical Model for the Extended Basic System -- 4.4.4 Results of Numerical Simulations for the Extended Basic System -- 5 Discussion -- 5.1 The Basic System -- 5.1.1 Fed-Batch Reactor: Numerical Simulations -- 5.1.2 Continuous Reactor: Numerical Simulations -- 5.1.3 Assessment of Experimental Results -- 5.2 The Extended Basic System -- 5.3 Biochemical Networks -- 5.4 Comparing Artificial Neural Networks with Biochemical Networks -- 5.5 Comparing Biochemical Networks to Computational Models -- 6 Conclusions -- References -- Index |
Summary |
Describes fully delineated biochemical systems, organized as neural network-type assemblies. It explains the relationship between these two apparently unrelated fields, revealing how biochemical systems have the advantage of using the "language" of the physiological processes and, therefore, can be organized into the neural network-type assemblies, much in the way that natural biosystems are |
Bibliography |
Includes bibliographical references and index |
Notes |
English |
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Print version record |
Subject |
Biocomputers.
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Neural networks (Computer science)
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Information technology.
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Electronic data processing.
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Computer science.
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Electronic Data Processing
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Biochemical Phenomena
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Neural Networks, Computer
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information technology.
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computer science.
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data processing.
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COMPUTERS -- Neural Networks.
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Electronic data processing
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Computer science
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Biocomputers
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Information technology
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Neural networks (Computer science)
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Biocomputer -- Neuronales Netz.
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Neuronales Netz -- Biocumputer.
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Form |
Electronic book
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Author |
Lotan, Noah.
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LC no. |
2009019358 |
ISBN |
9780470552681 |
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0470552689 |
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9780470552674 |
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0470552670 |
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128268664X |
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9781282686649 |
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9786612686641 |
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6612686642 |
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