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The Biochemistry of Inorganic Polyphosphates - Igor S. Kulaev, Vladimir Vagabov, Tatiana Kulakovskaya

The Biochemistry of Inorganic Polyphosphates

Buch | Hardcover
304 Seiten
2004 | 2nd edition
John Wiley & Sons Inc (Verlag)
978-0-470-85810-3 (ISBN)
CHF 339,95 inkl. MwSt
A resource on inorganic polyphosphate metabolism. This book describes the structure and properties of these compounds and presents a comparative analysis of the traditional methods of their extraction from cells.
Now in a second edition, Biochemistry of Inorganic Polyphosphates fills the need for an exhaustive resource on inorganic polyphosphate metabolism. The authors describe the structure and properties of these compounds and presents a comparative analysis of the newest and traditional methods of their extraction from cells. Distribution of polyphosphates in organisms, their localization in cells and tissues is also described.

Comprehensive presentation of inorganic polyphosphate metabolism
Follows polyphosphates in cells of organisms from different stages of evolution
Presents methods for the analysis and study of polyP-dependent enzymes
Comprehensive information on genetics, metabolism and biotechnology of polyphosphates
Textbook and reference work on all aspects of polyphosphates

Igor S. Kulaev is the author of The Biochemistry of Inorganic Polyphosphates, 2nd Edition, published by Wiley. Vladimir Vagabov is the author of The Biochemistry of Inorganic Polyphosphates, 2nd Edition, published by Wiley. Tatiana Kulakovskaya is the author of The Biochemistry of Inorganic Polyphosphates, 2nd Edition, published by Wiley.

Foreword to the First Edition. Preface.

Acknowledgements.

Introduction.

1 The Chemical Structures and Properties of Condensed Inorganic Phosphates.

1.1 The Structures of Condensed Phosphates.

1.1.1 Cyclophosphates.

1.1.2 Polyphosphates.

1.1.3 Branched Inorganic Phosphates, or ‘Ultraphosphates’.

1.2 Some Chemical Properties of Condensed Inorganic Polyphosphates.

1.3 Physico-Chemical Properties of Condensed Inorganic Polyphosphates.

2 Methods of Polyphosphate Assay in Biological Materials.

2.1 Methods of Extraction from Biological Materials.

2.2 Chromatographic Methods.

2.3 Colorimetric and Fluorimetric Methods.

2.4 Cytochemical Methods.

2.5 X-Ray Energy Dispersive Analysis.

2.6 31P Nuclear Magnetic Resonance Spectroscopy.

2.7 Other Physical Methods.

2.8 Gel Electrophoresis.

2.9 Enzymatic Methods.

3 The Occurrence of Polyphosphates in Living Organisms.

4 The Forms in which Polyphosphates are Present in Cells.

4.1 Polyphosphate–Cation Complexes.

4.2 Polyphosphate–Ca2+–Polyhydroxybutyrate Complexes.

4.3 Complexes of Polyphosphates with Nucleic Acids.

4.4 Binding of Polyphosphates with Proteins.

5 Localization of Polyphosphates in Cells of Prokaryotes and Eukaryotes.

5.1 Prokaryotes.

5.2 Eukaryotes.

6 Enzymes of Polyphosphate Biosynthesis and Degradation.

6.1 Enzymes of Polyphosphate Biosynthesis.

6.1.1 Polyphosphate Kinase (Polyphosphate:ADP Phosphotransferase, EC 2.7.4.1).

6.1.2 3-Phospho-D-Glyceroyl-Phosphate:Polyphosphate Phosphotransferase (EC 2.7.4.17).

6.1.3 Dolichyl-Diphosphate:Polyphosphate Phosphotransferase (EC 2.7.4.20).

6.2 Enzymes of Polyphosphate Degradation.

6.2.1 Polyphosphate-Glucose Phosphotransferase (EC 2.7.1.63).

6.2.2 NAD Kinase (ATP:NAD 2_-Phosphotransferase, EC 2.7.1.23).

6.2.3 Exopolyphosphatase (Polyphosphate Phosphohydrolase, EC 3.6.1.11).

6.2.4 Adenosine–Tetraphosphate Phosphohydrolase (EC 3.6.1.14).

6.2.5 Triphosphatase (Tripolyphosphatase, EC 3.6.1.25).

6.2.6 Endopolyphosphatase (Polyphosphate Depolymerase, EC 3.6.1.10).

6.2.7 PolyP:AMP Phosphotransferase.

7 The Functions of Polyphosphates and Polyphosphate-Dependent Enzymes.

7.1 Phosphate Reserve.

7.1.1 In Prokaryotes.

7.1.2 In Eukaryotes.

7.2 Energy Source.

7.2.1 Polyphosphates in Bioenergetics of Prokaryotes.

7.2.2 Polyphosphate in Bioenergetics of Eukaryotes.

7.3 Cations Sequestration and Storage.

7.3.1 In Prokaryotes.

7.3.2 In Eukaryotes.

7.4 Participation in Membrane Transport.

7.5 Cell Envelope Formation and Function.

7.5.1 Polyphosphates in the Cell Envelopes of Prokaryotes.

7.5.2 Polyphosphates in the Cell Envelopes of Eukaryotes.

7.6 Regulation of Enzyme Activities.

7.7 Gene Activity Control, Development and Stress Response.

7.7.1 In Prokaryotes.

7.7.2 In Lower Eukaryotes.

7.8 The Functions of Polyphosphates in Higher Eukaryotes.

8 The Peculiarities of Polyphosphate Metabolism in Different Organisms.

8.1 Escherichia coli.

8.1.1 The Dynamics of Polyphosphates under Culture Growth.

8.1.2 The Effects of Pi Limitation and Excess.

8.1.3 The Effects of Mutations on Polyphosphate Levels and Polyphosphate-Metabolizing Enzyme Activities.

8.1.4 The Effects of Nutrition Deficiency and Environmental Stress.

8.2 Pseudomonas aeruginosa.

8.3 Acinetobacter.

8.4 Aerobacter aerogenes (Klebsiella aerogenes).

8.5 Azotobacter.

8.6 Cyanobacteria (Blue–Green Algae) and other Photosynthetic Bacteria.

8.7 Mycobacteria and Corynebacteria.

8.8 Propionibacteria.

8.9 Archae.

8.10 Yeast.

8.10.1 Yeast Cells Possess Different Polyphosphate Fractions.

8.10.2 The Dynamics of PolyP Fractions during the Cell Cycle.

8.10.3 The Relationship between the Metabolism of Polyphosphates and other Compounds.

8.10.4 Polyphosphate Fractions at Growth on a Pi-Sufficient Medium with Glucose.

8.10.5 The Effects of Pi Limitation and Excess.

8.10.6 The Effects of other Conditions on the Polyphosphate Content in Yeast Cells.

8.10.7 The Effects of Inhibitors on the Polyphosphate Content in Yeast Cells.

8.10.8 The Effects of Mutations on the Content and Chain Lengths of Polyphosphate in Yeast.

8.11 Other Fungi (Mould and Mushrooms).

8.12 Algae.

8.12.1 Localization and Forms in Cells.

8.12.2 The Dynamics of Polyphosphates in the Course of Growth.

8.12.3 The Influence of Light and Darkness.

8.12.4 The Effects of Pi Limitation and Excess.

8.12.5 Changes in Polyphosphate Content under Stress Conditions.

8.13 Protozoa.

8.14 Higher Plants.

8.15 Animals.

9 Applied Aspects of Polyphosphate Biochemistry.

9.1 Bioremediation of the Environment.

9.1.1 Enhanced Biological Phosphate Removal.

9.1.2 Removal of Heavy Metals from Waste.

9.2 Polyphosphates and Polyphosphate-Metabolizing Enzymes in Assay and Synthesis.

9.3 Polyphosphates in Medicine.

9.3.1 Antiseptic and Antiviral Agents.

9.3.2 Polyphosphate Kinase as a Promising Antimicrobial Target.

9.3.3 Polyphosphates as New Biomaterials.

9.3.4 Polyphosphates in Bone Therapy and Stomathology.

9.4 Polyphosphates in Agriculture.

9.5 Polyphosphates in the Food Industry.

10 Inorganic Polyphosphates in Chemical and Biological Evolution.

10.1 Abiogenic Synthesis of Polyphosphates and Pyrophosphate.

10.2 Phosphorus Compounds in Chemical Evolution.

10.3 Polyphosphates and Pyrophosphates: Fossil Biochemical Reactions and the Course of Bioenergetic Evolution.

10.4 Changes in the Role of Polyphosphates in Organisms at Different Evolutionary Stages.

References.

Index of Generic Names.

Subject Index.

Erscheint lt. Verlag 14.5.2004
Verlagsort New York
Sprache englisch
Maße 174 x 255 mm
Gewicht 652 g
Themenwelt Naturwissenschaften Chemie Anorganische Chemie
ISBN-10 0-470-85810-9 / 0470858109
ISBN-13 978-0-470-85810-3 / 9780470858103
Zustand Neuware
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