The study, published in the Proceedings of the
Pre-treatment of the biomass feedstock -- non-food crops such as switchgrass and miscanthus -- is the step of breaking down plant cell walls before fermentation into ethanol. This pre-treatment step has long been the economic bottleneck hindering fuel production from lignocellulosic biomass feedstocks.
"Given a choice between teaching an organism how to deconstruct biomass or teaching it how to make ethanol, the more difficult part is deconstructing biomass," said Westpheling, who spent two and a half years developing genetic methods for manipulating the C. bescii bacterium to make the current work possible.
The UGA research group engineered a synthetic pathway into the organism, introducing genes from other anaerobic bacterium that produce ethanol, and constructed a pathway in the organism to produce ethanol directly.
"Now, without any pretreatment, we can simply take switchgrass, grind it up, add a low-cost, minimal salts medium and get ethanol out the other end," Westpheling said. "This is the first step toward an industrial process that is economically feasible."
The recalcitrance of plant biomass for the production of fuels, a resistance to microbial degradation evolved in plants over millions of years, results from their rigid cell walls that have been the key to their survival and the major impediment to biofuel production. Understanding the scientific basis of, and ultimately eliminating recalcitrance as a barrier has been the core mission of the
"To take a virtually unknown and uncharacterized organism and engineer it to produce a biofuel of choice within the space of a few years is a towering scientific achievement for Dr. Westpheling's group and for BESC," said
Caldicellulosiruptor bacteria have been isolated around the world-from a hot spring in
"Systems biology allows for the engineering of artificial pathways into organisms that allow them to do things they cannot do otherwise," she said.
Ethanol is but one of the products the bacterium can be taught to produce. Others include butanol and isobutanol (transportation fuels comparable to ethanol), as well as other fuels and chemicals-using biomass as an alternative to petroleum.
"This is really the beginning of a platform for manipulating organisms to make many products that are truly sustainable," she said.
Westpheling's co-authors on the paper are
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