Encyclopedia of Inorganic and Bioinorganic Chemistry

Encyclopedia of Inorganic and Bioinorganic Chemistry

Online ISBN: 9781119951438

DOI: 10.1002/9781119951438

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  1. Bioinorganic Chemistry
    1. Acetogen
    2. Active Site
    3. Alpha Helix
    4. Antigen
    5. Antioxidant
    6. Antiport
    7. Antitumor Activity
    8. Apoprotein
    9. Archaea
    10. Autoxidation
    11. Bacteria
    12. Beta Sheet
    13. Beta Turn
    14. Bioconjugate Chemistry
    15. Bioinformatics
    16. Bioinorganic Chemistry
    17. Biomimesis
    18. Biomimetic High-Valent Mononuclear Nonheme Iron-Oxo Chemistry
    19. Biomimetic Synthesis of Nanoparticles
    20. Biomineralization
    21. Biosynthesis
    22. Bleomycin
    23. Broken Symmetry States of Iron—Sulfur Clusters
    24. C-Terminus
    25. Cadmium Transport in Eukaryotes
    26. Calcium-Binding Proteins
    27. Catalase
    28. Cation-Activated Enzymes
    29. Chlorophyll
    30. Chloroplast
    31. Chromium: Biological Relevance
    32. Cobaloxime
    33. Cobalt: B12 Enzymes and Coenzymes
    34. Coenzyme
    35. Combined Density Functional Theory (DFT) and Electrostatics Study of the Proton Pumping Mechanism in Cytochrome C Oxidase
    36. Competitive Inhibition
    37. Computational Methods: Modeling of Reactivity in Zn-Containing Enzymes
    38. Computational Studies: B12 Cofactors and their Interaction with Enzyme Active Sites
    39. Computational Studies: Chemical Evolution of Metal Sites
    40. Computational Studies: Cisplatin
    41. Computational Studies: Proton/Water Coupling to Metals in Biological Reaction Mechanisms
    42. Copper Homeostasis: Regulation in Plants
    43. Copper in Brain and Neurodegeneration
    44. Copper in Immune Cells
    45. Copper in Mitochondria
    46. Copper Protein Variants: “Type Zero” Sites
    47. Copper Proteins with Dinuclear Active Sites
    48. Copper Proteins with Type 1 Sites
    49. Copper Proteins: Oxidases
    50. Copper Transport in Fungi
    51. Copper Transport: Structural Biology
    52. Copper Transporting ATPases in Mammalian Cells
    53. Copper: Hemocyanin/Tyrosinase Models
    54. Copper(I) ATPases: Transport Mechanism and Cellular Functions in Bacteria
    55. Copper(I) Fluorescent Probes
    56. Cupredoxin
    57. Cytochrome Oxidase
    58. Deaminase
    59. Dehydratase
    60. Dehydrogenase
    61. Determining Transition States in Bioinorganic Reactions
    62. Dioxygenase
    63. Diphenolase
    64. Disulfide Bridge
    65. DNA Polymerase
    66. Electron Paramagnetic Resonance
    67. Electron Transport Chains
    68. Electronic Structure Calculations: Dinitrogen Reduction in Nitrogenase and Synthetic Model Systems
    69. Electronic Structure Calculations: Transition Metal—NO Complexes
    70. Emerging Radiometals for PET Imaging
    71. Entatic State
    72. Enzyme
    73. Enzyme Commission
    74. Eubacteria
    75. Eukaryote
    76. [FeFe]-Hydrogenase Cofactor Assembly
    77. Fenton Chemistry
    78. Ferroxidase
    79. Fuel Cells: Enzymes and Microbes for Energy Production
    80. Gene
    81. Gene Expression
    82. Genetic Engineering
    83. Genetic Regulation
    84. Glycoprotein
    85. Haloperoxidases
    86. Heme Proteins
    87. Hemozoin: Crystal Engineering Survivability
    88. Holoprotein
    89. Homeostasis
    90. Hydrogenase
    91. Hydrogenase Models
    92. Hydrogenases as Catalysts in Renewable Energy Applications
    93. Hydrogenases: Theoretical Investigations Towards Bioinspired H2 Production and Activation
    94. Immunochemistry
    95. Inhibition Constant
    96. Inhibitor
    97. Iron and Heme Transport and Trafficking
    98. Iron Homeostasis: Hepcidin Regulation
    99. Iron in Plants
    100. Iron Porphyrin Chemistry
    101. Iron Proteins for Storage & Transport & Their Synthetic Analogs
    102. Iron Proteins with Mononuclear Active Sites
    103. Iron Sequestration in Immunity
    104. Iron Starvation Response in Saccharomyces cerevisiae
    105. Iron Transport: Siderophores
    106. Iron–Sulfur Models of Protein Active Sites
    107. Iron–Sulfur Cluster Biogenesis in Archaea and Bacteria
    108. Iron–Sulfur Proteins
    109. Iron: Heme Proteins & Dioxygen Transport & Storage
    110. Iron: Heme Proteins & Electron Transport
    111. Iron: Heme Proteins, Mono- & Dioxygenases
    112. Iron: Heme Proteins, Peroxidases, Catalases & Catalase-Peroxidases
    113. Iron: Mitochondrial Iron Metabolism and the Synthesis of Iron–Sulfur Clusters
    114. Iron: Models of Proteins with Dinuclear Active Sites
    115. Iron: Molecular Basis of Hemochromatosis
    116. Iron: Non-Heme Proteins with Diiron-Carboxylate Active Sites
    117. Lanthanide Nanoparticles for Medical Imaging
    118. Long-Range Electron Transfer in Biology
    119. Manganese in Neurodegeneration
    120. Manganese Proteins with Mono- and Dinuclear Metal Sites
    121. Manganese: The Oxygen-Evolving Complex and Models
    122. Melanins
    123. Membrane
    124. Metal Homeostasis and Oxidative Stress in Bacillus subtilis
    125. Metal Homeostasis: Cyanobacterial Models That Address Cross-Talk
    126. Metal Homeostasis: Regulation of Manganese and Iron in the Rhizobia and Related α-Proteobacteria
    127. Metal Homeostasis: Sparing and Salvaging Metals in Chloroplasts
    128. Metal Ion Toxicity
    129. Metal Specificity of Metallosensors
    130. Metal Storage
    131. Metal-Based Drugs
    132. Metal-Based Imaging Agents
    133. Metal-Mediated Protein Modification
    134. Metal-Related Diseases of Genetic Origin
    135. Metallocenter Biosynthesis & Assembly
    136. Metallochaperones & Metal Ion Homeostasis
    137. Metalloporphyrin
    138. Metalloprotein
    139. Metalloprotein
    140. Metalloprotein Design and Engineering
    141. Metalloregulation
    142. Metallothioneins
    143. Metals in Bacterial Pathogenicity and Immunity
    144. Metals in Cells: Control of Cellular Metal Concentration
    145. Metals in Cells: X-Ray Fluorescence Microscopy
    146. Methanogen
    147. Michaelis Constant
    148. Modeling Metalloenzymes with Density Functional and Mixed Quantum Mechanical/Molecular Mechanical (QM/MM) Calculations: Progress and Challenges
    149. Molecular Biology
    150. Molecular Mechanics in Bioinorganic Chemistry
    151. Molybdenum Cofactor Biosynthesis and Cross Talk with Iron–Sulfur
    152. Molybdenum: MPT-Containing Enzymes
    153. Molybdenum: Nitrogenase Cofactor Assembly
    154. Monooxygenase
    155. Monophenolase
    156. Multi-Heme Cytochromes & Enzymes
    157. Mutation
    158. N-Terminus
    159. Nature of the Catecholate—Fe(III) Bond: High Affinity Binding and Substrate Activation in Bioinorganic Chemistry
    160. Nickel Enzymes & Cofactors
    161. Nickel Homeostasis: Mechanism and function of NikR
    162. Nickel, Cobalt Transport in Prokaryotes
    163. Nickel: Models of Protein Active Sites
    164. [NiFe]-Hydrogenase Cofactor Assembly
    165. Nitrogen Fixation
    166. Nitrogen Monoxide (Nitric Oxide): Bioinorganic Chemistry
    167. Nitrogenase Assembly and Catalysis
    168. Nitrogenase: Metal Cluster Models
    169. Nucleic Acid–Metal Ion Interactions
    170. Nucleic Acids
    171. Nutritional Aspects of Metals and Trace Elements
    172. Oxidation Catalysis by Transition Metal Complexes
    173. Oxidative Phosphorylation
    174. Oxidoreductase
    175. Oxo Transfer
    176. Oxygen Activation
    177. Oxygenase
    178. Peptide Bond
    179. Peptide–Metal Interactions
    180. Peroxidases
    181. Photosynthesis
    182. Photosystem I
    183. Platinum-Based Anticancer Drugs
    184. Polyacrylamide Gel Electrophoresis
    185. Polymerase Chain Reaction
    186. Polypeptide
    187. Porphyrin
    188. Post-Translational Modification
    189. Primary Structure
    190. Prokaryote
    191. Prosthetic Group
    192. Protein Determination
    193. Protoporphyrin
    194. Quantum Mechanical/Molecular Mechanical (QM/MM) Methods and Applictions in Bioinorganic Chemistry
    195. Reaction Center
    196. Reaction Coordinate of Pyranopterin Molybdenum Enzymes
    197. Recombinant DNA
    198. Reductase
    199. Replication
    200. RNA Polymerase
    201. Selenium Proteins Containing Selenocysteine
    202. Selenoenzymes and Selenium Trafficking: An Emerging Target for Therapeutics
    203. Selenoproteins—Regulation
    204. Self-Assembly: Bioinorganic
    205. Sequencing
    206. Siderophiles
    207. Siroheme
    208. Specific Activity
    209. Spectroscopic Properties of Protein-Bound Cofactors: Calculation by Combined Quantum Mechanical/Molecular Mechanical (QM/MM) Approaches
    210. Spin Contamination in Inorganic Chemistry Calculations
    211. Structural Origins of Noninnocent Coordination Chemistry
    212. Substrate
    213. Subunit
    214. Superoxide Dismutase
    215. Symport
    216. The Metallome
    217. Toxicity: Resistance Pathways for Metalloids and Toxic Metals
    218. Trace Element
    219. Transcription Factor
    220. Tungsten Proteins
    221. Turnover
    222. Uniport
    223. Vanadium in Biology
    224. Water Oxidation by the Manganese Cluster in Photosynthesis
    225. Zinc Enzymes
    226. Zinc Finger
    227. You have free access to this content
      Zinc Proteomics
    228. Zinc Transport: Regulation
    229. Zinc Transporters and Trafficking in Yeast
    230. Zinc: DNA-Binding Proteins
    231. Zinc: Fluorescent Sensors
  2. Catalysis
  3. Computational Methods
  4. Energy Chemistry
  5. Environmental Chemistry
  6. General Principles
  7. Green Chemistry and Sustainability
  8. Inorganic and Coordination Chemistry
  9. Lanthanides and Actinides
  10. Main Group Elements
  11. Medicinal Inorganic Chemistry
  12. Metalloproteins
  13. Nuclear Chemistry and Radionuclides
  14. Organometallic Chemistry
  15. Physical Methods
  16. Solid-State, Materials, and Nanomaterials
  17. Toxicology
  18. Transition Metals

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