Research promises healthier vegetable oil – and tractor fuel to harvest it

New low-cost DNA sequencing technology applied to seeds of the species Euonymus alatus – a common ornamental planting – was crucial to identifying the gene responsible for its manufacture of a novel, high-quality oil. But despite its name, the burning bush is not a suitable oil crop.

Yet inserted into the mustard weed – well-known to researchers as Arabidopsis and a cousin to commercial oilseed canola – the burning bush gene encodes an enzyme that produces a substantial yield of unusual compounds called acetyl glycerides, or acTAGs. Related vegetable oils are the basis of the world’s oilseed industry for the food and biofuels markets, but the oil produced by the burning bush enzyme claims unique and valuable characteristics.

One is its lower viscosity, or thickness.

“The high viscosity of most plant oils prevents their direct use in diesel engines, so the oil must be converted to biodiesel,” explained Timothy Durrett, an MSU plant biology research associate. “We demonstrated that acTAGs possess lower viscosity than regular plant oils. The lower viscosity acTAGs could therefore be useful as a direct-use biofuel for many diesel engines.”

Improved low-temperature characteristics noted for the oil also could make it suitable for diesel fuel, he said. And acTAGs boast lower calorie content than other vegetable oils, Durrett added, “thus they could be used as a reduced-calorie food oil substitute.”

With University Distinguished Professor of plant biology John Ohlrogge, visiting professor of plant biology Michael Pollard and other MSU researchers, Durrett published the findings in the May 18 issue of Proceedings of the National Academy of Sciences.

The burning bush is certainly not a rare species – the team gathered its samples from plantings around MSU’s campus. The researchers now are working to improve the modified mustard weed seeds’ acTAGs yield and already report purity levels of up to 80 percent.

“It should now be possible to produce acetyl glycerides in transgenic oilseed crops or single cell production systems such as algae that are the focus of much current effort in biofuels research,” said Pollard, who is keen to explore the technology’s commercial potential. “With the basic genetics defined and thus one major technical risk greatly reduced, the way is open to produce and assess this novel oil in food and nonfood applications.”

Funding for this early stage research came from the U.S. Department of Agriculture with support by the Great Lakes Bioenergy Research Center, a scientific consortium of which MSU is a major partner.

Michigan State University has been advancing knowledge and transforming lives through innovative teaching, research and outreach for more than 150 years. MSU is known internationally as a major public university with global reach and extraordinary impact. Its 17 degree-granting colleges attract scholars worldwide who are interested in combining education with practical problem solving.

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Mark Fellows EurekAlert!

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