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. Cellulose-Munching Microbe At Heart Of New Bioethanol Company

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Amherst MA (SPX) Sep 21, 2007
The search for greener alternatives to fossil fuels has led to a major investment in a microbe that converts plant matter into ethanol. Dubbed the "Q microbe," the bacterium has been the focus of University of Massachusetts Amherst microbiologist Susan Leschine's work for the past decade. Now it's taking center stage at SunEthanol, a new Amherst-based biofuels technology company.

Noted for its appetite for all things cellulose-including switchgrass, wood pulp and corn plant waste-the bacterium is highly efficient at converting biomass to ethanol. And it does so in a carbon-neutral process that doesn't require the additional enzyme treatments usually accompanying bioethanol production.

SunEthanol recently received millions of dollars in funding from several venture capital funds and other investors, including VeraSun Energy, one of the nation's largest producers of renewable fuel. Leschine, who is chief scientist at SunEthanol, will discuss the new approach to bioethanol production at the Pacific Rim Summit on Industrial Biotechnology and Bioenergy in Honolulu on Nov. 14-15.

The Q microbe is actually a strain of the soil-dwelling bacterium Clostridium phytofermentans, which was isolated from forest soil collected near the Quabbin Reservoir in central Massachusetts by Thomas Warnick, a member of Leschine's lab. The bacterium had never been described before by science and Clostridium phytofermentans was recognized in 2002 as a novel organism.

"We were focused on anaerobes," says Leschine, organisms that make a living in environments without oxygen. While going about their daily business-in this case breaking down plant litter-these anaerobes undergo fermentation. Many produce ethanol and a harmless vinegar-like substance called acetate, along with some hydrogen and carbon dioxide as waste.

What struck Leschine about C. phytofermentans was the amount of ethanol it produced. Most anaerobes make acetate as their primary product (hence the use of yeast and not bacteria for beer production), but this bacterium produced three to eight times more ethanol than acetate during fermentation.

The microbe is also unusual in its ability to consume such a wide variety of plant material. It breaks down cellulose with ease, the notoriously tough molecule that's the primary component of plant biomass. So Leschine's team surveyed the bacterium's dietary preferences, feeding it everything from wood pulp waste to sugar cane bagasse, the plant matter that's left over once sugar cane is crushed. Pectin, starch, xylan and other plant polymers that can be difficult to digest were no problem for the microbe.

"Q is able to break down such a wide variety of these components-it's a real generalist," says Leschine. "Can you imagine the enzymes it makes?"

The microbe's enzymes are another property that makes it an ideal organism for use in large-scale production of ethanol from biomass. Usually, cellulosic ethanol production involves several steps: pre-treat the plant material mechanically or chemically to get rough biomass; treat rough biomass with enzymes that have been bought or made in a lab; add the fermenting organism; recover and purify the ethanol. But the Q microbe's own enzymes are more than sufficient, eliminating a costly step and consolidating production into one tank. Low estimates are that this consolidated production reduces costs by 25 percent, says Leschine.

A final trait that makes the Q microbe an attractive addition to the alternative fuels roster is the process by which it makes ethanol is carbon neutral and can be carbon negative, depending on the biomass that's being used, says Leschine. The process uses plant waste-plants that have taken carbon dioxide out of the atmosphere-versus taking carbon out of the ground in the form of petroleum.

While the fermentation process releases some carbon dioxide, that amount isn't more than what the original plants took in and therefore isn't adding carbon to the cycle the way petroleum products do. And if a plant such as switchgrass is used, which stores large amounts of carbon in its roots, the process is actually carbon negative, putting carbon that was in the atmosphere into the ground.

Now that SunEthanol has secured its first round of funding, Leschine and her researchers are exploring the forms of biomass that microbe Q favors, optimizing pre-treatments and fermentation conditions. While Leschine never imagined she would be propelled from the laboratory into the world of venture capitalism, she says the process has been rewarding.

"Once we recognized that this work could really benefit the world, it could help reduce carbon dioxide emissions-well, that's huge," she says. "I felt an obligation."

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Miami (UPI) Sep 20, 2007
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