MARLBOROUGH, MASS., March 23, 2010—Qteros, Inc., and the University of Massachusetts Amherst announced today that the U.S. Patent and Trademark Office has issued U.S. Patent No. 7,682,811 titled “Systems and Methods for Producing Biofuels and Related Materials” describing the novel creation of products, including biofuels, through the fermentation of biomass by a unique, naturally-occurring anaerobic microorganism.
The patent is based on the novel Q Microbe® (Clostridium phytofermentans), discovered by UMass Amherst microbiologists Professor Susan Leschine and Research Associate Thomas Warnick. Qteros, the exclusive licensee of the patent, has demonstrated that their Q Microbe technology offers ethanol producers significant cost reductions by streamlining the biomass-conversion process, commonly referred to as “consolidated bio-processing” (CBP).
“Integration of our unique Q Microbe technology into a cellulosic ethanol plant design allows producers the opportunity to dramatically reduce the capital and operating costs associated with a biomass-to-ethanol process,” states Kevin A. Gray, PhD, Senior Vice President and Chief Technology Officer of Qteros. According to Gray, “While traditional cellulosic ethanol processes require numerous production steps, including the addition of costly exogenous enzymes, use of the Q Microbe™ lowers costs by simultaneously hydrolyzing polysaccharides into simple sugars and fermenting all of these sugars into desirable products in a single-tank operation.”
“The Q Microbe technology offers numerous important advantages over other ethanol-producing microorganisms, which we believe provides the operational foundation for profitable, commercial-scale cellulosic ethanol production,” states John A. McCarthy, Jr., President and CEO of Qteros. “This patent underscores the significance and the unique nature of our technology and represents an important milestone that will further our progress toward commercialization of a robust, low-cost CBP platform for cellulosic ethanol production.”
Specific advantages of this patented technology include, the natural production of all enzymes required to digest biomass into its component sugars, the ability to ferment polymeric forms of sugar resulting in decreased pretreatment costs and more efficient ethanol production, the highly efficient fermentation of all major sugars present in biomass, and the production of ethanol as the primary product of the microorganism’s metabolism. Qteros’ CBP system not only enables the production of fuel-grade cellulosic ethanol in a uniquely streamlined production process, it also results in higher ethanol yields from a given amount of biomass material compared to other methods. To date, the Q Microbe has performed efficiently across a broad range of feedstocks that include, wheat straw, sugar cane bagasse, energy crops such as switchgrass, and agricultural residues such as corn stover, cob, and fiber.
All of these advantages improve the economics of ethanol production by reducing capital and operating costs, making this microorganism ideally suited for large-scale production of cellulosic ethanol from a wide variety of non-food plant materials. Additionally, Qteros scientists and engineers continue to improve the performance of the microorganism through genetic modification and process optimization.
Issuance of this patent and the evolving science that underlies it will enable the rapid acceleration and commercialization of Q Microbe technology. Qteros’ work in its facilities, as well as ongoing work being done at UMass Amherst, will allow Qteros and its partners to deliver on the promise of low-cost cellulosic ethanol production across the worldwide market.
“We applaud Qteros’ success in advancing the Q Microbe technology,” says Nick DeCristofaro, Director of Commercial Ventures and Intellectual Property at UMass Amherst. “Dr. Susan Leschine has been a torch bearer for technology transfer on our campus. The relationship between Qteros and UMass is an excellent example of how industry and universities can work together to bring innovation to the marketplace.”
About Qteros, Inc.
Qteros is committed to delivering innovative process technologies for clean transportation fuels that reduce greenhouse gas emissions at a price competitive with gasoline. The company is currently in the process of scaling up a unique microbial solution for the highly efficient and cost-effective conversion of non-food biomass into clean transportation fuel. The company’s patented Q Microbeﾙ® system converts a wide array of cellulosic biomass directly into ethanol in a single streamlined process, consolidating enzymatic hydrolysis and fermentation, largely eliminating costly exogenous enzymes and associated pretreatments, and greatly simplifying the entire production process. This process is commonly referred to as consolidated bioprocessing. Qteros’ scientists and business team are dedicated to producing liquid fuels to achieve a sustainable solution to the world’s growing energy needs. Qteros has been funded by some of the leading investors in the alternative energy industry including, among others, Venrock Associates, Battery Ventures, BP Technology Ventures, Soros Fund Management LLC, and Valero Energy Corporation. For more information, visit www.Qteros.com.
About the University of Massachusetts Amherst
Founded in 1863, the University of Massachusetts Amherst is a top public research university and flagship of the five-campus state university system, enrolling more than 26,000 students annually. Sponsored research awards totaled $137.5 million in fiscal 2009, contributing to the campus’s classification as a Research University with Very High research activity (RU/VH) by the Carnegie Foundation. With approximately 70 research centers and institutes and over 330 technologies available to license, the campus provides a major stimulus for the Massachusetts economy.