Biological Inorganic Chemistry – Robert Crichton – 2nd Edition

Description

Biological Inorganic Chemistry: A New Introduction to Molecular Structure and Function, Second Edition, provides a comprehensive discussion of the biochemical aspects of metals in living systems. Beginning with an overview of metals and selected nonmetals in biology, the book then discusses the following concepts: basic coordination chemistry for biologists; structural and molecular biology for chemists; biological ligands for metal ions; intermediary metabolism and bioenergetics; and methods to study metals in biological systems.

The book also covers metal assimilation pathways; transport, storage, and homeostasis of metal ions; sodium and potassium channels and pumps; magnesium phosphate metabolism and photoreceptors; calcium and cellular signaling; the catalytic role of several classes of mononuclear zinc enzymes; the biological chemistry of iron; and copper chemistry and biochemistry. In addition, the book discusses nickel and cobalt enzymes; manganese chemistry and biochemistry; molybdenum, tungsten, vanadium, and chromium; non-metals in biology; biomineralization; metals in the brain; metals and neurodegeneration; metals in medicine and metals as drugs; and metals in the environment.

View more

Warning: Undefined variable $isbn13 in /home/elsoluci/public_html/tbooks.solutions/wp-content/themes/el-solucionario/content.php on line 207
  • Chapter 1. An Overview of Metals and Selected Nonmetals in Biology
    Introduction
    Why do We Need Anything Other Than C, H, N, and O (together with some P and S)?
    What are the Essential Elements and the Essential Metal Ions?
    An Idiosyncratic View of the Periodic Table

    Chapter 2. Basic Coordination Chemistry for Biologists
    Introduction
    Types of Chemical Bonds
    Hard and Soft Ligands
    Coordination Geometry
    Redox Chemistry

    Chapter 3. Structural and Molecular Biology for Chemists
    Introduction
    The Structural Building Blocks of Proteins
    Primary, Secondary, Tertiary, and Quaternary Structure of Proteins
    Secondary and Tertiary Structures of Nucleic Acids

    Chapter 4. Biological Ligands for Metal Ions
    Introduction
    Insertion of Metal Ions into Metalloproteins
    Chelatase – The Terminal Step in Tetrapyrrole Metallation
    Iron–Sulfur Cluster Formation
    More Complex Cofactors – MoCo, FeMoCo, P-clusters, H-clusters, and CuZ
    Siderophores

    Chapter 5. An Overview of Intermediary Metabolism and Bioenergetics
    Introduction
    Redox Reactions in Metabolism
    The Central Role of ATP in Metabolism
    The Types of Reaction Catalysed by Enzymes of Intermediary Metabolism
    An Overview of Catabolism
    Selected Case Studies – Glycolysis and the Tricarboxylic Acid Cycle
    An Overview of Anabolism
    Selected Case Studies: Gluconeogenesis and Fatty Acid Biosynthesis
    Bioenergetics – Generation of Phosphoryl Transfer Potential at the Expense of Proton Gradients

    Chapter 6. Methods to Study Metals in Biological Systems
    Introduction
    Magnetic Properties
    Electron Paramagnetic Resonance (EPR) Spectroscopy
    Mössbauer Spectroscopy
    NMR Spectroscopy
    Electronic and Vibrational Spectroscopies
    Circular Dichroism and Magnetic Circular Dichroism
    Resonance Raman Spectroscopy
    Extended X-Ray Absorption Fine Structure (EXAFS)
    X-Ray Diffraction

    Chapter 7. Metal Assimilation Pathways
    Introduction
    Inorganic Biogeochemistry
    Metal Assimilation in Bacteria
    Metal Assimilation in Fungi and Plants
    Metal Assimilation in Mammals

    Chapter 8. Transport, Storage, and Homeostasis of Metal Ions
    Introduction
    Metal Storage and Homeostasis in Bacteria
    Metal Transport, Storage, and Homeostasis in Plants and Fungi
    Metal Transport, Storage, and Homeostasis in Mammals

    Chapter 9. Sodium and Potassium – Channels and Pumps
    Introduction – Transport Across Membranes
    Sodium versus Potassium
    Potassium Channels
    Sodium Channels
    The Sodium–Potassium ATPase
    Active Transport Driven by Na+ Gradients
    Sodium/Proton Exchangers
    Other Roles of Intracellular K+

    Chapter 10. Magnesium–Phosphate Metabolism and Photoreceptors
    Introduction
    Magnesium-Dependent Enzymes
    Phosphoryl Group Transfer Kinases
    Phosphoryl Group Transfer – Phosphatases
    Stabilisation of Enolate Anions – The Enolase Superfamily
    Enzymes of Nucleic Acid Metabolism
    Magnesium and Photoreception

    Chapter 11. Calcium – Cellular Signalling
    Introduction – Comparison of Ca2+ and Mg2+
    The Discovery of a Role for Ca2+ Other than as a Structural Component
    An Overview of Ca2+ Regulation and Signalling
    Ca2+ and Cell Signalling

    Chapter 12. Zinc – Lewis Acid and Gene Regulator
    Introduction
    Mononuclear Zinc Enzymes
    Multinuclear and Cocatalytic Zinc Enzymes
    Zinc Fingers DNA- and RNA-Binding Motifs

    Chapter 13. Iron
    Introduction
    Iron Chemistry
    Iron and Oxygen
    The Biological Importance of Iron
    Biological Functions of Iron-Containing Proteins
    Haemoproteins
    Other Iron-Containing Proteins
    Dinuclear Nonhaem Iron Enzymes

    Chapter 14. Copper – Coping with Dioxygen
    Introduction
    Copper Chemistry and Biochemistry
    Copper-Containing Enzymes in Oxygen Activation and Reduction
    Mars and Venus – The Role of Copper in Iron Metabolism

    Chapter 15. Nickel and Cobalt
    Introduction
    Nickel Enzymes
    Methyl-coenzyme M Reductase
    Cobalamine and Cobalt Proteins
    B12-dependent Isomerases
    B12-dependent Methyltransferases
    Noncorrin Co-containing Enzymes

    Chapter 16. Manganese – Oxygen Generation and Detoxification
    Introduction: Mn Chemistry and Biochemistry
    Photosynthetic Oxidation of Water – Oxygen Evolution
    Mn2+ and Detoxification of Oxygen Free Radicals
    Nonredox di-Mn Enzymes – Arginase

    Chapter 17. Molybdenum, Tungsten, Vanadium, and Chromium
    Introduction
    Mo and W Chemistry and Biochemistry
    Molybdenum Enzyme Families
    The Xanthine Oxidase Family
    The Sulfite Oxidases and DMSO Reductases

    Chapter 18. Non-metals in Biology
    Introduction
    The Major Biogeochemical Cycles

    Chapter 19. Biomineralisation
    Introduction
    Principles of Solid-State Biological Inorganic Chemistry
    An Overview of the Major Classes of Biominerals

    Chapter 20. Metals in Brain
    Introduction
    The Brain and the Blood–Brain Barrier (BBB)
    Sodium, Potassium, and Calcium Channels
    Zinc, Copper, and Iron
    Concluding Remarks

    Chapter 21. Metals and Neurodegeneration
    Introduction
    Metal-based Neurodegeneration
    Neurodegenerative Diseases Associated with Metals

    Chapter 22. Metals in Medicine and Metals as Drugs
    Introduction
    Disorders of Metal Metabolism and Homeostasis
    Metal-based Drugs
    Metallotherapeutics with Lithium
    Contrast Agents for Magnetic Resonance Imaging (MRI)

    Chapter 23. Metals in the Environment
    Introduction Environmental Pollution and Heavy Metals
    Aluminium
    Cadmium
    Mercury
    Lead
    Metals as Poisons
  • Citation

Leave us a comment

No Comments

Subscribe
Notify of
guest
0 Comments
Inline Feedbacks
View all comments
0
Would love your thoughts, please comment.x
()
x