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Reactive Oxygen Species
Signaling Between Hierarchical Levels in Plants
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Main description:

Photosynthesis and the complex network within plants is becoming more important than ever, because of the earth's changing climate. In addition, the concepts can be used in other areas, and the science itself is useful in practical applications in many branches of science, including medicine, biology, biophysics, and chemistry. This original, groundbreaking work by two highly experienced and well-known scientists introduces a new and different approach to thinking about living organisms, what we can learn from them, and how we can use the concepts within their scientific makeup in practice. This book describes the principles of complex signaling networks enabling spatiotemporally-directed macroscopic processes by the coupling of systems leading to a bottom-up information transfer in photosynthetic organisms. Top-down messengers triggered by macroscopic actuators like sunlight, gravity, environment or stress lead to an activation of the gene regulation on the molecular level. Mainly the generation and monitoring, as well the role of reactive oxygen species in photosynthetic organisms as typical messengers in complex networks, are described. A theoretical approach according to the principle of synergetics is presented to model light absorption, electron transfer and membrane dynamics in plants. A special focus will be attended to nonlinear processes that form the basic principle for the accumulation of energy reservoirs and large forces enabling the dynamics of macroscopic devices. This volume is a must-have for any scientist, student, or engineer working with photosynthesis. The concepts herein are not available anywhere else, in any other format, and it is truly a groundbreaking work with sure to be long-lasting effects on the scientific community.


Contents:

Abstract ix
Foreward 1 xi
Foreward 2 xiii
Preface xv
1 Multiscale Hierarchical Processes 1
1.1 Coupled Systems, Hierarchy and Emergence 2
1.2 Principles of Synergetics 12
1.3 Axiomatic Motivation of Rate Equations 15
1.4 Rate Equations in Photosynthesis 19
1.5 Top down and Bottom up Signaling 23
2 Photophysics, Photobiology and Photosynthesis 27
2.1 Light Induced State Dynamics 27
2.2 Rate Equations and Excited State Dynamics in Coupled Systems 41
2.3 Light-Harvesting, Energy and Charge Transfer and Primary Processes of Photosynthesis 64
2.4 Antenna Complexes in Photosynthetic Systems 70
2.5 Fluorescence Emission as a Tool for Monitoring PS II Function 91
2.6 Excitation Energy Transfer and Electron Transfer Steps in Cyanobacteria Modeled with Rate Equations 93
2.7 Excitation Energy and Electron Transfer in Higher Plants Modeled with Rate Equations 105
2.8 Nonphotochemical Quenching in Plants and Cyanobacteria 114
2.9 Hierarchical Architecture of Plants 118
3 Formation and Functional Role of Reactive Oxygen Species (ROS) 123
3.1 Generation, Decay and Deleterious Action of ROS 125
3.2 Monitoring of ROS 137
3.3 Signaling Role of ROS 151
4 ROS Signaling in Coupled Nonlinear Systems 157
4.1 Signaling by Superoxide and Hydrogen Peroxide in Cyanobacteria 158
4.2 Signaling by Singlet Oxygen and Hydrogen Peroxide in Eukaryotic Cells and Plants 163
4.3 ROS and Cell Redox Control and Interaction with the Nuclear Gene Expression 167
4.4 ROS as Top down and Bottom up Messengers 174
4.5 Second Messengers and Signaling Molecules in H2O2 Signaling Chains and (Nonlinear) Networking 191
4.6 ROS-Waves and Prey-Predator Models 192
4.7 Open Questions on ROS Coupling in Nonlinear Systems 196
5 Th e Role of ROS in Evolution 199
5.1 Th e Big Bang of the Ecosphere 200
5.2 Complicated Patterns Result from Simple Rules but Only the Useful Patterns are Stable 201
5.3 Genetic Diversity and Selection Pressure as Driving Forces for Evolution 205
6 Outlook: Control and Feedback in Hierarchical Systems in Society, Politics and Economics 209
Bibliography 213
Appendix 249
Index 259


PRODUCT DETAILS

ISBN-13: 9781119184980
Publisher: John Wiley & Sons Ltd (John Wiley & Sons Inc)
Publication date: July, 2017
Pages: 300

Subcategories: Biochemistry