| 347 - 348 |
Preface: Biomimetic inorganic chemistry
Holm RH, Solomon EI |
| 349 - 383 |
Principles of mononucleating and binucleating ligand design
Gavrilova AL, Bosnich B |
| 385 - 401 |
Dinitrogen coordination chemistry: On the biomimetic borderlands
MacKay BA, Fryzuk MD |
| 403 - 418 |
Chemistry of nitric oxide relevant to biology
McCleverty JA |
| 419 - 458 |
Electronic structures of metal sites in proteins and models: Contributions to function in blue copper proteins
Solomon EI, Szilagyi RK, George SD, Basumallick L |
| 459 - 508 |
Quantum chemical studies of intermediates and reaction pathways in selected enzymes and catalytic synthetic systems
Noodleman L, Lovell T, Han WG, Li J, Himo F |
| 509 - 525 |
Biosynthesis of metal sites
Kuchar J, Hausinger RP |
| 527 - 559 |
Synthetic analogues of the active sites of iron-sulfur proteins
Rao PV, Holm RH |
| 561 - 588 |
Functional analogues of cytochrome c oxidase, myoglobin, and hemoglobin
Collman JP, Boulatov R, Sunderland CJ, Fu L |
| 589 - 615 |
Models of the bis-histidine-ligated electron-transferring cytochromes. Comparative geometric and electronic structure of low-spin ferro- and ferrihemes
Walker FA |
| 617 - 649 |
Heme protein assemblies
Reedy CJ, Gibney BR |
| 651 - 697 |
Electron transfer by copper centers
Rorabacher DB |
| 699 - 767 |
Synthetic analogues relevant to the structure and function of zinc enzymes
Parkin G |
| 769 - 787 |
Zinc-nucleic acid interaction
Aoki S, Kimura E |
| 789 - 799 |
The design of functional DNA-binding proteins based on zinc finger domains
Jantz D, Amann BT, Gatto GJ, Berg JM |
| 801 - 824 |
Metallothioneins: Zinc, cadmium, mercury, and copper thiolates and selenolates mimicking protein active site features - Structural aspects and biological implications
Henkel G, Krebs B |
| 825 - 848 |
Synthetic analogues of cysteinate-ligated non-heme iron and non-corrinoid cobalt enzymes
Kovacs JA |
| 849 - 902 |
The chemistry and biochemistry of vanadium and the biological activities exerted by vanadium compounds
Crans DC, Smee JJ, Gaidamauskas E, Yang LQ |
| 903 - 938 |
Structural, spectroscopic, and reactivity models for the manganese catalases
Wu AJ, Penner-Hahn JE, Pecoraro VL |
| 939 - 986 |
Dioxygen activation at mononuclear nonheme iron active sites: Enzymes, models, and intermediates
Costas M, Mehn MP, Jensen MP, Que L |
| 987 - 1011 |
Synthetic models for non-heme carboxylate-bridged diiron metalloproteins: Strategies and tactics
Tshuva EY, Lippard SJ |
| 1013 - 1045 |
Structure and spectroscopy of copper-dioxygen complexes
Mirica LM, Ottenwaelder X, Stack TDP |
| 1047 - 1076 |
Reactivity of dioxygen-copper systems
Lewis EA, Tolman WB |
| 1077 - 1133 |
Synthetic models for heme-copper oxidases
Kim E, Chufan EE, Kamaraj K, Karlin KD |
| 1135 - 1157 |
The clusters of nitrogenase: Synthetic methodology in the construction of weak-field clusters
Lee SC, Holm RH |
| 1159 - 1173 |
Formation and insertion of the nitrogenase iron-molybdenum cofactor
Dos Santos PC, Dean DR, Hu YL, Ribbe MW |
| 1175 - 1200 |
Synthetic analogues and reaction systems relevant to the molybdenum and tungsten oxotransferases
Enemark JH, Cooney JJA |
