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Department of Plant Biology, Department of Biochemistry, and |
Photosystem I
The Light-Driven Plastocyanin: Ferredoxin Oxidoreductase
Edited by
John H. Golbeck, The
[Series Editor: GOVINDJEE
(gov@uiuc.edu)]
Photosystem I: The Light-Driven Plastocyanin:
Ferredoxin Oxidoreductase. This book summarizes the advances made in the last
decade in the biophysics, biochemistry, and molecular biology of the light-induced
plastocyanin:ferredoxin oxidoreductase known as Photosystem
I. This reaction center participates along with Photosystem
II in harvesting solar energy to supply photosynthetic organisms with stored
chemical energy in the form of ATP and stored reducing power in the form of
NADPH for processes such as metabolism, growth, and reproduction. This volume
is a unique compilation of 40 chapters by leading researchers that contains
information on molecular architecture, protein-pigment interactions, excitation
and electron transfer dynamics, protein-cofactor interactions, kinetics of
electron transfer and bioassembly of proteins and
cofactors. It begins with a series of historical perspectives that provide a
solid background to the field, and ends with information on modeling of
light-harvesting and electron transfer reactions, and the evolution of the
reaction center. Particular attention is paid to spectroscopy, including the
theory of the measurement and the interpretation of the data. The book is intended
to be a comprehensive and up-to-date source of background information on Photosystem I for seasoned researchers, those who are just
entering the field, Ph.D. students, researchers and advanced undergraduates in
the fields of biophysics, biochemistry, microbiology, agriculture, and ecology.
Industrial scientists, interested in solar energy conversion, will also find
the book useful.
Announcement
(See
pdf file)
Contents (On this page)
Contents (See
pdf file)
For
further information, visit Springeronline site
Note: Members of the ISPR(International
Society of Photosynthesis Research) receive
25% discount
Flyer of Volume 24 for
Flyer of Volume 24 for ROW (Rest of the World)
(See
pdf file)
Contents
Editorial
Contents
Preface
Author Index
Color Plates
Dedication: A Tribute to Lee MeIntash
Part I: Historical Perspectives
1. A Personal Historical Introduction to Photosystem I: Ferredoxin +
FNR, the Key to NADP+
Reduction, pp. 1-7
Anthony
San Pietro
2.
The Discovery of Bound Iron-Sulfur Clusters in Photosystem
I by EPR Spectroscopy, pp. 9-14
Richard
Malkin
3.
The Discovery of
P430 and Works on Photosystem-I Electron Acceptors FeS-X and A0 at the Charles F. Kettering Research
Laboratory, pp. 15-29
Bacon Ke
4.
Historical Introduction to Photosystem I: The
Discovery of the A1 and A2 (FX?) Acceptors by Time-Resolved Optical
Spectroscopy, pp. 31-40
Paul
Mathis and Kenneth Sauer
Part II: Molecular Architecture
5.
Association of Photosystem I and Light-Harvesting
Complex II during State Transitions, pp.41-46
Egbert J. Boekema, Roman Kouril, Jan P. Dekker and Poul
Erik Jensen
6.
Structural Analysis of Cyanobacterial Photosystem I, pp.47-69
7.
Structure, Function, and Regulation of Plant Photosystem
I, pp.71-77
Nathan
Nelson and Adam Ben-Shem
8.
Molecular Interactions of the Stromal Subunit PsaC with the PsaA/PsaB Heterodimer, pp.79-98
Mikhail
L. Antonkine and John H. Golbeck
Part III: Pigment-Protein Interactions
9. Accessory
Chlorophyll Proteins in Cyanobacterial Photosystem I, pp.99-117
James
Barber, Jon Nield, James Duncan and Thomas S. Bibby
10. LHCI: The Antenna Complex of Photosystem
I in Plants and Green Algae, pp.119-137
Roberta
Croce, Tomas Morosinotto and Roberto Bassi
11. The Low Molecular Mass Subunits in Higher Plant Photosystem
I, pp.139-154
Anna Haldrup, Poul Erik Jensen and Henrik Vibe Scheller
Part IV: Excitation Dynomics
and Electron Transfer Processes
12. Ultrafast Optical Spectroscopy of Photosystem
I, pp.155-175
Sergei Savikhin
13. The Long Wavelength Chlorophylls of Photosystem I,
pp.177-192
Navassard V. Karapetyan, Eberhard Schlodder, Rienk van Grondelle and Jan P. Dekker
Part V: Modification of the Cofactors and
their Environments
14. Mutagenesis
of Ligands to the Cofactors in Photosystem
I, pp.193-204
Andrew
N. Webber and Velupillaimani M. Ramesh
15. Genetic
Manipulation of Quinone Biosynthesis in Cyanobacteria, pp.205-222
Yumiko Sakuragi and Donald A. Bryant
Part VI: Spectroscopic Studies of the
Cofactors
16. Optical
Measurements of Secondary Electron Transfer in Photosystem
I, pp.223-244
Fabrice Rappaport, Bruce A. Diner and
Kevin Redding
17. EPR
Studies of the Primary Electron Donor P700 in Photosystem
I, pp.245-269
Wolfgang
Lubitz
18.
Fourier Transform Infrared Studies of the Primary Electron Donor, P700,
pp.271-289
Jacques
Breton
19. Primary Charge Separation Between
P700* and the Primary Electron Acceptor Complex A-A0: A Comparison with
Bacterial Reaction Centers, pp.291-300
Vladimir A. Shuvalov, Andrei G. Yakovlev, L. G. Vasilieva and
Anatoly Ya. Shkuropatov
20. Fourier
Transform Infrared Studies of A1, pp.301-318
Gary
Hastings
21. Electrogenic Reactions Associated with Electron Transfer
in Photosystem I, pp.319-338
Alexey Yu Semenov, Mahir
D. Mamedov and Sergey K.Chamorovsky
22. High-Field
EPR Studies of Electron Transfer Intermediates in Photosystem
I, pp.339-360
Marion
C. Thurnauer, Oleg G. Poluektov
and Gerd Kothe
23. Transient EPR Spectroscopy as Applied to
Light-Induced Functional Intermediates Along the Electron Transfer Pathway in Photosystem I, pp.361-386
Dietmar Stehlik
Part VII: Kinetics of Electron Transfer
24. Electron
Transfer Involving Phylloquinone in Photosystem I, pp.387-411
Art van
der Est
25. The Directionality of Electron Transport in Photosystem
I, pp.413-437
Kevin Redding and Art vander Est
26. Electron Transfer from the Bound Iron-Sulfur
Clusters to Ferredoxin/Flavodoxin: Kinetic and
Structural Properties of Ferredoxin/Flavodoxin
Reduction by Photosystem I, pp.439-454
Pierre Setif
27. Electron
Transfer From Ferredoxin and Flavodoxin to Ferredoxin: NADP+ Reductase, pp.455-476
John K.
Hurley, Gordon Tollin, Milagros Medina and Carlos
Gomez-Moreno
28. The Interaction of Ferredoxin with Ferredoxin-Dependent Enzymes, pp.477-498
Toshiharu
Hase, Peter Schurmann and
David B. Knaff
29. Electron
Transfer Between Photosystem I and Plastocyanin or Cytochrome c6 , pp.499-513
Michael
Hippler and Friedel Drepper
Part VIII: Biosynthetic Processes
30. Genetic
Dissection of Photosystem I Assembly and Turnover in
Eukaryotes, pp.515-527
Jean-David
Rochaix
31. Assembly
of the Bound Iron-Sulfur Clusters in Photosystem I,
pp.529-547
Gaozhong Shen and John H. Golbeck
32. The Assembly of Photosystem I Reducing Site,
pp.549-569
Alexander
Fish, Konstantin Kogan and
Rachel Nechushtai
Part IX: Modeling of Photosynthetic
Processes
33. Thermodynamics
of Photosystem I, pp.571-581
David Mauzerall
34. Application
of Marcus Theory to Photosystem I Electron Transfer,
pp.583-594
Christopher
C. Moser and P. Leslie Dutton
35. Modeling
of Optical Spectra and Light Harvesting in Photosystem
I, pp.595-610
Thomas Renger and Eberhard Schlodder
36. Functional
Modeling of Electron Transfer in Photosynthetic Reaction Centers, pp.611-637
Vladimir
Shinkarev
Part X: Related Processes
37. Cyclic
Electron Transfer Around Photosystem
I, pp.639-656
Pierre
Joliot, Anne Joliot and Giles Johnson
38. Photoinhibition and Protection of Photosystem
I, pp.657-668
Kintake Sonoike
Part XI: Evolution of Photosystem
I
39. Evolutionary
Relationships Among Type I Photosynthetic Reaction
Centers, pp.669-681
Jason
Raymond and Robert E. Blankenship
40. Convergent
Evolution of Cytochrome c6 and Plastocyanin, pp.683-696
Miguel A. De la Rosa, Fernando P. Molina-Heredia, Manuel Hervas and Jose
A. Navarro A. Magnuson et al.
Subject Index
Organism Index
Mutant Index
Gene and Gene Product Index
Springer,
2006, xxviii+16 Color Plates+697 pp
ISBN-10 1-4020-4255-8 (HB), ISBN-13 978-1-4020-4256-6
Volume 24 in the
series: Advances
in Photosynthesis, Govindjee, series editor.
Book Review of the Entire Series
|
Department of Plant Biology 265 Morrill Hall |
Phone: (217) 333-1794 Fax: (217) 244-7246 Prepared by Govindjee and Nanguo Yuan 09 May 2006 |