Genetically engineered bacteria may help in production of alternative fuelSeptember 9th, 2008 - 5:22 pm ICT by ANI
Washington, September 9 (ANI): A team of researchers from Dartmouths Thayer School of Engineering and Mascoma Corporation in New Hampshire, US, have genetically engineered a bacteria that is important for producing large quantities of cellulosic ethanol, a leading candidate for a sustainable and secure alternative to petroleum-derived transportation fuel.
For the first time, the group has genetically engineered a thermophilic bacterium, meaning its able to grow at high temperatures, and this new microorganism makes ethanol as the only product of its fermentation.
Our discovery is one potential avenue for research to facilitate turning inedible cellulosic biomass, including wood, grass, and various waste materials, into ethanol, said Lee Lynd, the Paul E. and Joan H. Queneau Distinguished Professor in Environmental Engineering Design at the Thayer School of Engineering at Dartmouth.
In the near term, the thermophilic bacterium we have developed is advantageous, because costly cellulase enzymes typically used for ethanol production can be augmented with the less expensive, genetically engineered new organism, he added.
According to Lynd, this discovery is only the first step, a proof of concept, for future development of ethanol-producing microbes that can make ethanol from cellulosic biomass without adding enzymes.
All of the ethanol currently used as an additive to gasoline comes from corn.
However, it is widely recognized that cellulosic biomass has significant advantages over corn as a raw material for ethanol production, provided that a cost-effective technology for converting cellulosic materials can be developed.
There are several features that make cellulosic ethanol attractive.
The raw material, cellulosic biomass, is available on a large scale, does not include food crops, and is cost-competitive with petroleum on both an energy and a mass basis.
The technology to convert cellulosic biomass to ethanol is steadily improving, and it also has the potential to be cost-competitive with gasoline production.
Environmental benefits include a sustainable carbon cycle with near-zero net greenhouse gas emissions, because the carbon dioxide captured growing the biomass roughly equals what is emitted while running an engine.
In addition, ethanol has excellent performance and compatibility with existing internal combustion engines as well as fuel cell-powered vehicles of the future.
Im not sure if it was a good or a bad sign that I knew alternative energy would be so important today when I started this work 30 years ago, said Lynd.
At that time, tools of molecular biology were in a nascent state of development. Now we can make much faster progress, and I anticipate more exciting advances soon, he added. (ANI)
Tags: cellulase enzymes, cellulosic biomass, cellulosic materials, environmental engineering design, ethanol production, food crops, lee lynd, mass basis, thayer school of engineering, thermophilic bacterium