The bio-organometallic chemistry of active site iron in hydrogenases
Author:
Publisher
Elsevier BV
Subject
Materials Chemistry,Physical and Theoretical Chemistry,Inorganic Chemistry
Reference93 articles.
1. BIOCHEMISTRY:Biological Hydrogen Production: Not So Elementary
2. Bioinorganic Catalysis;Cammack,1999
3. Nickel-iron hydrogenases: Structural and functional properties
4. Reactions with Molecular Hydrogen in Microorganisms: Evidence for a Purely Organic Hydrogenation Catalyst
5. On the Mechanism of Catalysis by a Metal-Free Hydrogenase from Methanogenic Archaea: Enzymatic Transformation of H2 without a Metal and Its Analogy to the Chemistry of Alkanes in Superacidic Solution
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