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CONTENTS 1. Adjusting the Lock and Adjusting the Key in Cyclodextrin Chemistry: An Introduction .................................................................. R. Breslow 2. Models for Enzymic Systems: An Introduction.................................... F. H. Westheimer 1 17 3. Studies on the Mechanism of Action and Stereochemical Behavior of Semisynthetic Model Enzymes ......................................................... E. T. Kaiser, H. L. Levine, T. Otuski, H. E. Fried, and R.-M. Dupeyre 35 4. Asymmetric Transformation of a-Substituted Carbonyl Compounds Via Enamine or Iminazoline Formation ............................................... S. Yoshikawa, H. Matsushita, and S. Shibata 49 5. Model Studies and the Biochemical Function of Coenzymes ............ D. Dolphin 65 6. Carbon Acid Oxidations and Oxygen Activation by Flavins .............. T. C. Brake 89 7. Flavin Coenzyme Analogs as Probes of Flavoenzyme Reaction Mechanisms ........................................................................................... C. Walsh, F Jacobson, and C. C. Ryerson 119 8. Structure-Function Relationship of Vitamin B12 Coenzyme (Adenosylcobalamin) in the Diol-Dehydrase System ......................... T. Toraya and S. Fukui 139 9. Some Mechanistic Aspects of Coenzyme B12-Dependent Rearrangements ..................................................................................... J. Halpern 165 10. Vitamin B12 Models with Macrocyclic Ligands .................................... Y. Murakami 11. Nature of the Iron-Oxygen Bond and Control of Oxygen Affinity of the Heme by the Structure of the Globin in Hemoglobin ............ M. F. Perutz 12. The Chemical Basis of Variations in Hemoglobin Reactivity ............. T. G. Traylor, A. P. Berzinis, J. B. Cannon, D. H. Campbell, J. F Geibel, T. Mincey, S. Tsuchiya, and D. K. White 13. Evidence Regarding Mechanisms for Protein Control of Heme Reactivity.................................................................................................. B. M. Hoffman, J. C. Swartz, M. A. Stanford, and Q. H. Gibson 14. Activation of Dioxygen Using Group VIII Metal Complexes ............. B. R. James 15. Studies of the Mechanism of Oxygen Activation and Transfer Catalyzed by Cytochrome P-450 ............................................................ J. T. Groves, S. Krishnan, G. E. Avaria, and T. E. Nemo 16. Oxygen Activation: Participation of Metalloenzymes and Related Metal Complexes ................................................................................... 291 I. Tabushi and N. Koga 17. Oxygen Activation in Oxygenase Systems: Model Approach Using Iron-Porphyrin .............................................................................. 307 Z. Yoshida, H. Sugimoto, andH. Ogoshi 179 201 219 235 253 277 18. Intermediate Spin States of Iron Porphyrins.......................................... 327 H. Kobayashi, Y. Kaizu, and K. Eguclii 19. The Active Site of Sepioteuthis lessoniana Hemocyanin ..................... 341 A. Nakahara, W. Mori, S. Suzuki, and M. Kimura 20. Chemical Approaches to Nitrogen Fixation.......................................... 351 W. E. Newton 21. A Possible Mimic of the Nitrogenase Reaction ..................................... 379 J. Chart 22. Molybdothiol and Molybdoselenol Complex Catalysts: Acetylene Reduction and Electron Spin Resonance Characteristics ..................... 393 Y. Sugiura, T. Kikuchi, and H. Tanaka 23. Metal Ion Effects in the Reactions of Phosphosulfate ........................... 409 W. Tagaki and T. Eiki
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