Results
1 -
10 of
839
(Click
here to explore results)
- Metal-Carbon Bonds in Enzymes and Cofactors: Metal Ions in Life Sciences, 3 Nickel-Alkyl Bond Formation in the Active Site of Methyl-Coenzyme M Reductase. Bernhard Jaun, Rudolf K. Thauer
, 2009
, Volume 6
, Pages 115-132
- Metal-Carbon Bonds in Enzymes and Cofactors: Metal Ions in Life Sciences, 1 Organometallic Chemistry of B12 Coenzymes. Bernhard Kräutler
, 2009
, Volume 6
, Pages 1-51
- Metal-Carbon Bonds in Enzymes and Cofactors: Metal Ions in Life Sciences, 2 Cobalamin- and Corrinoid-Dependent Enzymes. Rowena G. Matthews
, 2009
, Volume 6
, Pages 53-114
- Organometallics in Environment and Toxicology: Metal Ions in Life Sciences, 3 Evidence for Organometallic Intermediates in Bacterial Methane Formation Involving the Nickel Coenzyme F430. Mishtu Dey, Xianghui Li, Yuzhen Zhou, Stephen W. Ragsdale
, 2010
, Volume 7
, Pages 71-110
- B Vitamins and Folate: Chemistry, Analysis, Function and Effects, CHAPTER 1 Historical Context of Vitamin B. Hideyuki Hayashi
, 2012
, Pages 3-20
- Metal-Carbon Bonds in Enzymes and Cofactors: Metal Ions in Life Sciences, 12 Computational Studies of Bioorganometallic Enzymes and Cofactors. Matthew D. Liptak, Katherine M. Van Heuvelen, Thomas C. Brunold*
, 2009
, Volume 6
, Pages 417-460
- From Enzyme Models to Model Enzymes, Chapter 4 Enzyme Models Classified by Reaction
, 2009
, Pages 61-194
- B Vitamins and Folate: Chemistry, Analysis, Function and Effects, CHAPTER 47 Cobalamin and Nutritional Implications in Kidney Disease. Katsushi Koyama
, 2012
, Pages 786-804
- The Chemical Biology of Sulfur, Chapter 5 The Nucleophilic Thiolate in Cysteine and Cysteamine Scaffolds
, 2020
, Pages 92-128
- The Chemical Biology of Sulfur, Chapter 15 A Traverse Through Sulfur Chemical Biology
, 2020
, Pages 387-405