An Unusual Iron-Dependent Oxidative Deformylation Reaction Providing Insight into Hydrocarbon Biosynthesis in Nature

The development of new pathways for next-generation biofuel production has spurred recent investigations into the mechanisms of enzymes that biosynthesize hydrocarbons. One widely distributed group of enzymes, aldehyde decarbonylases, catalyze unusual deformylation reactions in which long-chain fatty aldehydes are converted to alkanes. These enzymes are all iron-dependent and in insects are represented by a cytochrome P450 enzyme that releases the aldehyde carbon as CO2. Here we describe a novel nonenzymatic reaction of an α-cyclopropyl-substituted aldehyde that mimics the enzyme reaction. This aldehyde is oxidatively deformylated in the presence of aqueous iron(II) salts and oxygen to yield an alkyl-substituted cyclopropane and CO2, in a reaction that competes with the more conventional oxidation of the aldehyde to the carboxylic acid. Like the enzymatic reaction, the reaction occurs with retention of the aldehyde proton in the alkane product and probably proceeds through an iron–peroxo species. Computat...