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Metalloproteomics - EA Permyakov

Metalloproteomics

(Autor)

Buch | Hardcover
786 Seiten
2009
Wiley-Blackwell (Verlag)
978-0-470-39248-5 (ISBN)
CHF 179,95 inkl. MwSt
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This volume provides up-to-date information on all major families of metal-binding proteins, including their structural, physico-chemical, and functional properties. After an introduction to cation binding, it discusses methods for the investigation of the binding of different cations to proteins. Then it gives characteristics of Ca-binding proteins, followed by descriptions of Mg, Zn, Fe, Co, Cu, Wo, Mn, Na, and K-binding proteins. The final chapter deals with the interaction of different cations with nucleic acids. With principles of proteomics and examples throughout, this is the definitive reference on metal-binding proteins.

EUGENE PERMYAKOV, PhD, Doctor of Sciences, Professor of Biophysics, has been the Director of the Institute for Biological Instrumentation of the Russian Academy of Sciences since 1994. His research focuses on the study of physico-chemical and functional properties of metal-binding proteins, with an emphasis on calcium-binding proteins.

Preface. Introduction to the Wiley Series on Protein and Peptide Science. Introduction. 1 Complexes of Metal Cations and Low-Molecular-Mass Compounds and of Metal Cations and Proteins. 1.1. Biologically Significant Metal Cations. 1.2. Structures and Properties of the Complexes of Metal Cations and Low-Molecular-Mass Compounds. 1.3. Dissociation Constants for Complexes of Metal Cations and Low-Molecular-Mass Compounds. 1.4. Solubilities of Complexes of Calcium and of Some Other Metal Cations. 2 General Regularities of the Binding of Metal Cations to Proteins. 2.1. The Structures of the Protein-Binding Sites of Calcium, Magnesium, Zinc, and Transition Metal Ions. 2.2. Binding Stoichiometry and Binding (Dissociation) Constants. 2.3. Protein Families. 3 Experimental Methods Used for Studies of the Binding of Metal Cations. 3.1. Atomic Flame Absorption Spectroscopy. 3.2. Radioactivity. 3.3. Ion-Selective Electrodes. 3.4. Calcium Buffers. 3.5. Equilibrium and Flow Dialysis. 3.6. Fluorescent Dyes. 3.7. Isothermal Titration Calorimetry. 3.8. Differential Scanning Calorimetry. 3.9. Absorption Spectroscopy. 3.10. Fluorescent Spectroscopy. 3.11. Circular Dichroism and Optical Rotatory Dispersion Spectroscopy. 3.12. Mass Spectroscopy. 3.13. Extended X-ray Absorption Fine Structure Spectroscopy. 3.14. Small-Angle X-ray Scattering. 3.15. Proteolysis. 3.16. Deuterium Exchange. 3.17. Crystallography. 3.18. Nuclear Magnetic Resonance. 3.19. Electron Spin Resonance. 3.20. Mossbauer Spectroscopy. 4 Calcium, Calcium-Binding Proteins, and Their Major Families. 4.1. EF-Hand Proteins. 4.1.1. Parvalbumin. 4.1.2. Calbindin D9k, D28k, and Calretinin. 4.1.3. S100 Proteins. 4.1.4. Calmodulin. 4.1.5. Troponin C. 4.1.6. Recoverin and Other Neuronal Calcium Sensor Proteins. 4.1.7. Calcium-Regulated Photoproteins (Aequorin, Obelin). 4.1.8. Calcineurin. 4.1.9. Penta-EF-hand Family of Ca2+-Binding Proteins. 4.1.10. Sarcoplasmic Calcium-Binding Protein and Calerythrin. 4.1.11. Spectrin and α-Actinin. 4.2. Other Cytosolic Proteins That May be Calcium Modulated. 4.2.1. Annexins. 4.2.2. C2-Domain-Containing Proteins. 4.2.3. α-Lactalbumin and Calcium-Binding Lysozymes. 4.2.4. Calcium ATPases. 4.3. Extracellular Calcium-Binding Proteins. 4.3.1. Cell Matrix Proteins. 4.3.2. Cadherins. 4.3.3. Serum Amyloid P Component. 4.3.4. Integrin. 4.3.5. Blood Clotting Proteins. 4.3.6. Osteocalcin. 4.3.7. Ca2+-Binding Lectins. 4.3.8. D-Galactose-Binding Protein. 4.3.9. Calsequestrin. 4.3.10. Ca2+-Binding Hydrolytic Enzymes. 5 Interactions of Calcium-Binding Proteins with Low-Molecular-Mass Compounds, Peptides, Proteins, and Membranes. 5.1. Interactions with Low-Molecular-Mass Compounds. 5.2. Interactions with Peptides and Proteins. 5.3. Interactions with Membrane Systems. 6 Calcium-Binding Proteins in Various Systems. 6.1. Calcium-Binding Proteins in Muscles. 6.2. Calcium-Binding Proteins in Nervous System. 6.3. Participation of Calcium-Binding Proteins in Blood Coagulation Process. 6.4. Participation of Calcium-Binding Proteins in the Calcification of Hard Tissues. 6.5. Cytotoxic Activity of Calcium-Binding Proteins. 6.6. Calcium-Binding Proteins in Bacteria. 7 The Binding of Magnesium Ions to Proteins. 8 The Binding of Zinc Ions to Proteins. 8.1. Structural Zinc-Binding Sites. 8.1.1. Zinc Fingers. 8.1.2. Zinc-Binding Sites, Containing His and Asp/Glu. 8.1.3. Interwoven Zinc-Binding Sites. 8.2. Catalytic Zinc-Binding Sites. 8.2.1. Alcohol Dehydrogenase. 8.2.2. Metalloproteases. 8.2.3. Astacin Superfamily. 8.2.4. β-Lactamases. 8.2.5. Carbonic Anhydrases. 8.3. Co-Catalytic Zinc-Binding Sites. 8.3.1. Superoxide Dismutase. 8.3.2. Phosphatases. 8.3.3. Aminopeptidases. 8.4. Protein Interface Zinc-Binding Sites. 8.4.1. Protein Interface Catalytic Zinc-Binding Sites. 8.4.2. Zinc-Binding Sites in Superantigens. 8.4.3. Zinc-His/Glu Sites at Protein Interfaces. 8.4.4. Zinc-Cys Protein Interface Sites. 8.5. The Binding of Zinc Ions to Calcium-Binding Proteins. 8.6. Some General Notes on Zinc-Binding Sites. 8.7. Zinc Ions in Cells. 9 The Binding of Copper Ions to Proteins. 9.1. Multicopper Blue Proteins. 9.1.1. Nitrite Reductase. 9.1.2. Laccase. 9.1.3. Ascorbate Oxidase. 9.1.4. Tyrosinases. 9.1.5. Ceruloplasmin. 9.2. Monocopper Blue Proteins. 9.2.1. Plastocyanin. 9.2.2. Azurin. 9.3. Binuclear CuA Sites. 9.3.1. Cytochrome c Oxidase. 9.3.2. N2O-Reductase. 9.3.3. Hemocyanins. 9.4. Copper Transport and Anticopper Protection. 9.5. Interactions of Copper with Prion Proteins. 9.6. Alzheimer's and Parkinson's Diseases and Metal Cations. 9.7. Wilson's Disease, Menkes Syndrome, and Copper Ions. 10 Iron-Binding Proteins. 10.1. Iron-Containing Heme Proteins. 10.1.1. Porphyrin and Heme. 10.1.2. Myoglobin. 10.1.3. Hemoglobin. 10.1.4. Cytochromes. 10.1.5. Peroxidases and Catalases. 10.2. Transferrin and Lactoferrin. 10.3. Ferritin and Bacterioferritin. 10.4. The Proteins with Fe-S Clusters. 10.4.1. Nitrogenase. 10.4.2. Hydrogenases. 10.4.3. Ferredoxins. 10.4.4. Biotin Synthase. 10.5. Bacterial Iron Homeostasis. 11 Molybdenum-Containing and Tungsten-Containing Proteins. 11.1. Xanthine Oxidase. 11.2. Sulfite Oxidase. 11.3. DMSO-Reductase. 11.4. Aldehyde : Ferredoxin Oxidoreductase and Formaldehyde : Ferredoxin Oxidoreductase. 12 Proteins Containing Nickel and Cobalt. 12.1. Urease. 12.2. Methionine Aminopeptidase. 12.3. Nitrile Hydratase. 13 Manganese-Containing Proteins. 13.1. Manganese in the Photosynthetic Systems. 13.2. Manganese-Containing Enzymes. 13.2.1. Arginase. 13.2.2. Manganese-Superoxide Dismutase. 14 Sodium-Binding and Potassium-Binding Proteins. 14.1. Potassium Channel. 14.2. Sodium Pump. 14.3. The Mammalian Nap/Hp Exchanger. 14.4. Na+/Ca2+ Exchanger. 14.5. Enzymes Activated by Monovalent Cations. 14.5.1. K+-Activated Type I Enzymes. 14.5.2. K+-Activated Type II Enzymes. 14.5.3. Na+-Activated Type I Enzymes. 14.5.4. Na+-Activated Type II Enzymes. 14.5.5. Na+-Activated Proteolytic Enzymes. 15 Interactions of Metal Cations with Nucleic Acids. 15.1. Interactions of Metal Cations with DNA. 15.2. Interactions of Metal Cations with RNA. 16 "Nonphysiologic" Metals. 16.1. Alkali Metals. 16.1.1. Lithium (Li). 16.1.2. Rubidium (Rb). 16.1.3. Cesium (Cs). 16.1.4. Francium (Fr). 16.2. Alkali-Earth Metals. 16.2.1. Beryllium (Be). 16.2.2. Strontium (Sr). 16.2.3. Barium (Ba). 16.2.4. Radium (Ra). 16.3. Transition Metals. 16.3.1. Scandium (Sc). 16.3.2. Yttrium (Y). 16.3.3. Lanthanum (La) and Lanthanides. 16.3.4. Actinium (Ac) and Actinides. 16.3.5. Titanium (Ti). 16.3.6. Zirconium (Zr). 16.3.7. Hafnium (Hf). 16.3.8. Vanadium (V). 16.3.9. Niobium (Nb). 16.3.10. Tantalum (Ta). 16.3.11. Chromium (Cr). 16.3.12. Technetium (Tc). 16.3.13. Rhenium (Re). 16.3.14. Ruthenium (Ru). 16.3.15. Osmium (Os). 16.3.16. Rhodium (Rh). 16.3.17. Iridium (Ir). 16.3.18. Palladium (Pd). 16.3.19. Platinum (Pt). 16.3.20. Silver (Ag). 16.3.21. Gold (Au). 16.3.22. Cadmium (Cd). 16.3.23. Mercury (Hg). 16.4. Metals and Metalloids in the Groups 13 to 16. 16.4.1. Aluminum (Al). 16.4.2. Gallium (Ga). 16.4.3. Indium (In). 16.4.4. Thallium (Tl). 16.4.5. Germanium (Ge). 16.4.6. Tin (Sn). 16.4.7. Lead (Pb). 16.4.8. Antimony (Sb). 16.4.9. Bismuth (Bi). 16.4.10. Polonium (Po). 17 Concluding Remarks. References. Index.

Erscheint lt. Verlag 22.5.2009
Reihe/Serie Wiley Series in Protein and Peptide Science
Zusatzinfo Illustrations
Verlagsort Hoboken
Sprache englisch
Maße 158 x 239 mm
Gewicht 1238 g
Einbandart gebunden
Themenwelt Naturwissenschaften Biologie Biochemie
Naturwissenschaften Chemie Organische Chemie
ISBN-10 0-470-39248-7 / 0470392487
ISBN-13 978-0-470-39248-5 / 9780470392485
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