Discovery Yields Road Map to Oxygenated Hydrocarbon Production
by Mark E. Griffin (Great Lakes Bioenergy Research Center) … Great Lakes Bioenergy Research Center scientists are enamored with one particular kind of long chain fatty acid, called furan fatty acid, because it could substitute for petroleum-based products including fuel, engine lubricant, medicines and food additives. Now, a team of GLBRC collaborators at the University of Wisconsin–Madison have described a pathway for furan fatty acid production in bacteria and other cells.
Similar to other fatty acids, furan fatty acids, or FuFAs, are found in the membrane that forms a cell’s border. These fatty acids act like an oily filter to protect the interior of the cell against changes in the external environment. They can also act as chemical messengers that tell the cell when a toxin or stress condition is present.
FuFAs are a special class of fatty acids with broad appeal to biofuel scientists because an oxygen atom is attached in the middle of the hydrocarbon chain.
Lemke previously identified FuFAs while exploring why a bacterium, Rhodobacter spheroides, dies when exposed to a hyperreactive oxygen molecule called singlet oxygen. As a graduate student studying with Tim Donohue, UW–Madison bacteriology professor and GLBRC director, Lemke originally found that singlet oxygen kills R. spheroides unless FuFAs are present. Still, they lacked information on how these important class of fatty acids were made.
In their new study, Lemke and a team of GLBRC researchers identified the steps this and other bacteria use to produce FuFAs. The team’s findings reveal previously unidentified intermediate molecules that ultimately get converted into FuFA. They also found enzymes that add oxygen to the FuFA chain while decorating the ring with methyl groups that serve as the chemical makeup for the genesis of fuels.
The next steps for GLBRC scientists are to understand the molecular basis of these newly discovered enzymes and to train cells to make more FuFAs so researchers can test the fatty acids in a variety of applications. READ MORE