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Life Sciences - Plant Sciences | Sulfur Metabolism in Phototrophic Organisms

Sulfur Metabolism in Phototrophic Organisms

Hell, R., Dahl, C., Knaff, D.B., Leustek, Th. (Eds.)

2008, XXXVI, 518 p.

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  • First volume that integrates knowledge on sulfur metabolism plants, algae and phototrophic prokaryotes
  • Comprehensive overview on phototrophic microbial sulfur and energy metabolism
  • Compilation of biochemical genomics of sulfur-driven processes in photosynthetic bacteria and plants
  • Comprehensive overview of plant sulfur relations from genome to environment

Sulfur is one of the most versatile elements in life due to its reactivity in different oxidation and reduction states. In phototrophic organisms, the redox properties of sulfur in proteins, and of sulfur-containing metabolites, are particularly important in the interaction between the reductive assimilation processes of photosynthesis and reactive oxygen species that arise as by-products of electron transport chains. Thiol groups in proteins and metabolites are targets of reactive oxygen species, resulting in potential damage and at the same time giving rise to redox signal cascades that trigger repair reactions and adaptation to environmental stress. Further, reduced sulfur compounds play a prominent role as electron donors for photosynthetic carbon dioxide fixation in anoxygenic phototrophic sulfur bacteria. Interest in the investigation of the multiple functions of sulfur-related processes has increased exponentially in recent years, especially in molecular and cellular biology, biochemistry, agrobiotechnology and ecology. This book provides, for the first time, in-depth and integrated coverage of the functions of sulfur in phototrophic organisms including bacteria, plants and algae; it bridges gaps between biochemistry and cellular biology of sulfur in these organisms, and of biology and environments dominated by them. This book is designed to be a comprehensive resource on sulfur in phototrophic organisms for advanced undergraduate and graduate students, beginning researchers and teachers in the area of photosynthesis, bacterial energy metabolism, biotechnology, plant nutrition, plant production and plant molecular physiology.

Content Level » Research

Keywords » Oxidation - agrobiotechnology - algae - biochemistry - biotechnology - metabolism - organisma - oxidization - photosynthesis - phototrophic - physiology - proteins - redox - sulfur - systematics

Related subjects » Biochemistry & Biophysics - Microbiology - Plant Sciences

Table of contents 

Editorial.-Contents.-Preface-Author Index.-Colour Plates.-I. Sulfate Activation And Reduction, Biosynthesis Of Sulfur Containing Amino Acids.- 1.Introduction To Sulfur Metabolism In Phototrophic Organisms; Christiane Dahl, Rüdiger Hell,David Knaff, Thomas Leustek.-2.Uptake, Allocation And Subcellular Transport Of Sulfate;Malcolm J. Hawkesford .-3.Phylogenetic Analysis Of Sulfate Assimilation And Cysteine Biosynthesis In Phototrophic Organisms;Stanislav Kopriva , Nicola Patron, Tom Leustek, Patrick Keeling.-4.Metabolism Of Cysteine In Plants And Phototrophic Bacteria;Rüdiger Hell, Markus Wirtz .-5.Metabolism Of Methionine In Plants And Phototrophic Bacteria;Rainer Hoefgen, Holger Hesse.-6.Sulfotransferases From Plants, Algae And Phototrophic Bacteria;Cinta Hernández-Sebastià, Frédéric Marsolais, Luc Varin.-7.Cysteine Desulfurase-Mediated Sulfur Donation Pathways In Plants And Phototrophic Bacteria;Lolla Padmavathi, Hong Ye, Elizabeth AH Pilon-Smits, Marinus Pilon .-II Sulfur In Plants And Algae:8.Molecular Biology And Functional Genomics For Identification Of Regulatory Networks Of Plant Sulfate Uptake And Assimilatory Metabolism;Hideki Takahashi, Kazuki Saito.-9.Biosynthesis, Compartmentation And Cellular Functions Of Glutathione In Plant Cells;Andreas Meyer, Thomas Rausch .-10.Sulfolipid Biosynthesis And Function In Plants;Christoph Benning, R. Michael Garavito, Mie Shimojia.- 11.Sulfur-Containing Secondary Metabolites And Their Role In Plant Defense;Meike Burow, Jonathan Gershenzon, Ute Wittstock.-12.Sulfite Oxidation In Plants;Robert Hänsch, Ralf R. Mendel.-13.The State Of Sulfur Metabolism In Algae: From Ecology To Genomics;Nakako Shibagaki, Arthur Grossman.- III. Sulfur In Phototrophic Prokaryotes:14.Systematics Of Anoxygenic Phototrophic Bacteria;Johannes Imhoff.-15.InorganicSulfur Compounds As Electron Donors In Purple Sulfur Bacteria;Christiane Dahl.-16.Sulfide Oxidation From Cyanobacteria To Humans: Sulfide-Quinone Oxidoreductase;Yosepha Shahak, Günther Hauska.-17.Genomic Insights Into The Sulfur Metabolism Of Phototrophic Green Sulfur Bacteria;Niels-Ulrik Frigaard, Don Bryant.-18.Genetic And Proteomic Studies Of Sulfur Oxidation In Chlorobium Tepdium Chlorobium Tepidum;Leong-Keat Chan, Rachael Morgan-Kiss, Thomas E. Hanson.-IV. Ecology And Biotechnology: 19.Ecology Of Phototrophic Sulfur Bacteria;Jörg Overmann.-20.Role Of Sulfur For Algae: Acquisition, Metabolism, Ecology And Evolution;Mario Giordano, Alessandra Norici, Simona Ratti, John A. Raven.-21.Role Of Sulfur For Plant Production In Agricultural And Natural Ecosystems;Fangjie Zhao, Michael Tausz , Luit De Kok.-22. Using Anoxygenic Photosynthetic Bacteria For The Removal Of Sulfide From Wastewater;Timothy J. Hurse, Ulrike Kappler, Jürg Keller.-V. Specific Methods: 23.X-Ray Absorption Spectroscopy As Tool For The Detection And Identification Of Sulfur Compounds In Phototrophic Organisms;Alexander Prange, Josef Hormes, Hartwig Modrow.-24.Imaging Thiol-Based Redox Processes In Live Cells;Andreas Meyer, Mark D. Fricker.-Index

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