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5. Quantitative interpretation of EPR spectroscopy with applications for iron-sulfur proteins

  • Doros T. Petasis and Michael P. Hendrich
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Volume 1 Characterization, Properties and Applications
This chapter is in the book Volume 1 Characterization, Properties and Applications
© 2017 Walter de Gruyter GmbH, Berlin/Munich/Boston

© 2017 Walter de Gruyter GmbH, Berlin/Munich/Boston

Chapters in this book

  1. Frontmatter I
  2. Preface V
  3. Tracey A. Rouault biography VII
  4. Contents IX
  5. List of contributing authors XVII
  6. 1. Iron-sulfur proteins: a historical perspective 1
  7. 2. Chemistry of iron-sulfur clusters 11
  8. 3. From the quantum chemistry of iron-sulfur clusters to redox energetics and reaction pathways in metalloenzymes 21
  9. 4. Bioinorganic spectroscopy of iron sulfur proteins— an overview 77
  10. 5. Quantitative interpretation of EPR spectroscopy with applications for iron-sulfur proteins 135
  11. 6. The utility of Mössbauer spectroscopy in eukaryotic cell biology and animal physiology 163
  12. 7. The interstitial carbide of the nitrogenase M-cluster: insertion pathway and possible function 191
  13. 8. The iron-molybdenum cofactor of nitrogenase 205
  14. 9. Biotin synthase: a role for iron-sulfur clusters in the radical-mediated generation of carbon-sulfur bonds 223
  15. 10. Molybdenum-containing iron-sulfur enzymes 249
  16. 11. The role of iron-sulfur clusters in the biosynthesis of the lipoyl cofactor 327
  17. 12. Iron-sulfur clusters and molecular oxygen: function, adaptation, degradation, and repair 359
  18. 13. Reactivity of iron-sulfur clusters with nitric oxide 387
  19. Index 439
https://doi.org/10.1515/9783110480436-005

Chapters in this book

  1. Frontmatter I
  2. Preface V
  3. Tracey A. Rouault biography VII
  4. Contents IX
  5. List of contributing authors XVII
  6. 1. Iron-sulfur proteins: a historical perspective 1
  7. 2. Chemistry of iron-sulfur clusters 11
  8. 3. From the quantum chemistry of iron-sulfur clusters to redox energetics and reaction pathways in metalloenzymes 21
  9. 4. Bioinorganic spectroscopy of iron sulfur proteins— an overview 77
  10. 5. Quantitative interpretation of EPR spectroscopy with applications for iron-sulfur proteins 135
  11. 6. The utility of Mössbauer spectroscopy in eukaryotic cell biology and animal physiology 163
  12. 7. The interstitial carbide of the nitrogenase M-cluster: insertion pathway and possible function 191
  13. 8. The iron-molybdenum cofactor of nitrogenase 205
  14. 9. Biotin synthase: a role for iron-sulfur clusters in the radical-mediated generation of carbon-sulfur bonds 223
  15. 10. Molybdenum-containing iron-sulfur enzymes 249
  16. 11. The role of iron-sulfur clusters in the biosynthesis of the lipoyl cofactor 327
  17. 12. Iron-sulfur clusters and molecular oxygen: function, adaptation, degradation, and repair 359
  18. 13. Reactivity of iron-sulfur clusters with nitric oxide 387
  19. Index 439
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