G. Stephanopoulos: Takes a step towards renewable diesel
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G. Stephanopoulos: Takes a step towards renewable diesel

MIT engineers led by a Greek researcher have genetically reprogrammed a strain of yeast so that it converts sugars to fats much more efficiently, an advance that could make possible the renewable production of high-energy fuels such as diesel.

The researchers, led by Gregory Stephanopoulos, the Willard Henry Dow Professor of Chemical Engineering and Biotechnology at MIT, modified the metabolic pathways of yeast that naturally produce large quantities of lipids, to make them about 30 percent more efficient.

“We have rewired the metabolism of these microbes to make them capable of producing oils at very high yields,” says Stephanopoulos, who is the senior author of the study, which appears in the Jan. 16, 2017 issue of Nature Biotechnology.

This upgrade could make the production of renewable high-energy fuels economically feasible, and the MIT team is now working on additional improvements that would help get even closer to that goal.

“What we’ve done is reach about 75 percent of this yeast’s potential, and there is an additional 25 percent that will be subject of follow-up work,” Stephanopoulos says.

Renewable fuels such as ethanol made from corn are useful as gasoline additives for running cars, but for large vehicles like airplanes, trucks, and ships, more powerful fuels such as diesel are needed.

“Diesel is the preferred fuel because of its high energy density and the high efficiency of the engines that run on diesel,” Stephanopoulos says. “The problem with diesel is that so far it is entirely made from fossil fuels.”

Efforts to develop engines that run on biodiesel made from used cooking oils have had some success, but cooking oil is a relatively scarce and expensive fuel source. Starches such as sugar cane and corn are cheaper and more plentiful, but these carbohydrates must first be converted into lipids, which can then be turned into high-density fuels such as diesel. To achieve this, Stephanopoulos and his colleagues began working with a yeast known as Yarrowia lipolytica, which naturally produces large quantities of lipids. They focused on fully utilizing the electrons generated from the breakdown of glucose. To achieve this, they transformed Yarrowia with synthetic pathways that convert surplus NADH, a product of glucose breakdown, to NADPH, which can be used to synthesize lipids. They ended up testing more than a dozen modified synthetic pathways.

“It turned out that the combination of two of these pathways gave us the best results that we report in the paper,” Stephanopoulos says. “The actual mechanism of why a couple of these pathways work much better than the others is not well-understood.”

Using this improved pathway, the yeast cells require only two-thirds of the amount of glucose needed by unmodified yeast cells to produce the same amount of oil.

While this new glucose-to-lipid conversion process could be economically feasible at current prices for cornstarch, the researchers are hoping to make the process even more efficient, Stephanopoulos says.

“There is still room for more improvement, and if we push more in this direction, then the process will become even more efficient, requiring even less glucose to produce a gallon of oil,” he says.

The researchers are also exploring using cheaper sources of plant material, such as grass and agricultural waste, which would require converting the cellulose that makes up those plant materials into glucose. The research was funded by the U.S. Department of Energy.

Read also:

Gregory Stephanopoulos: Pioneer in renewable materials

2 Greek scientists receive top award in the field of alternative fuels

Greek researcher participates in the team that discovered new biofuel technique

COMMENTS

  Comments: 2

  1. nikiforos konstantinos

    ΕΙΝΑΙ ΕΞΑΙΡΕΤΗ ΕΡΕΥΝΑ , ΣΥΓΧΑΡΗΤΗΡΙΑ! ΠΡΟΤΕΙΝΩ ΝΑ ΚΑΝΟΥΝ ΕΛΕΓΧΟ Κ ΣΥΝΔΥΑΣΜΟ ΤΩΝ ΦΥΤΩΝ ΠΟΥ ΕΥΔΟΚΙΜΟΥΝ ΣΤΗΝ ΕΛΛΑΔΑ, ΣΤΑ ΟΡΕΙΝΑ ΜΕΡΗ!


  2. Γεωργου Μαίρη

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