Bioengineers develop bacterial strain to hike ethanol biofuel production
Washington, Dec 10 (ANI): US bioengineers have developed a strain of bacteria to increase its ability to produce ethanol.
The research reveals how adaptation and metabolic engineering can be combined for strain improvement, a positive development for the biofuel industry.
The team focused their research on Zymomonas mobilis, a bacterium noted for its bio-ethanol producing potential. However, the team believed that ethanol production could be increased through improvement of xylose fermentation.
"Zymomonas mobilis is a superb ethanol producer with productivity exceeding yeast strains by several fold," said lead author Rachel Chen from the Georgia Institute of Technology.
"In this study we sought to improve ethanol production by enhancing the ability of Z. mobilis to use and ferment xylose. Fermenting xylose at high concentration could in turn increase ethanol concentration, resulting in much improved productivity."
The team found that by metabolically altering the strain, sugar fermentation time was reduced from over 110 hours to about 35 hours. This improvement in fermentation allowed the strain to ferment higher concentrations of xylose.
"This demonstrated increase in fermentation and xylose utilization enabled us to produce ethanol to a concentration of 9% (w/v), the highest ever shown for this organism in mixed sugar fermentation," said Chen.
One noticeable change was reduced levels of xylitol, a byproduct of xylose fermentation which can inhibit the strain's xylose metabolism. In addition, the first step of xylose metabolism, believed to be the rate-limiting step, was accelerated 4-8 times in the adapted strain, with the net effect of channeling xylose to ethanol instead of xylitol.
"This research illustrates the power of adaptation in strain improvement," concluded Chen.
"This confirms that xylitol metabolism is the key to efficient use of xylose in this bacterium, which in turn can be vital for producing ethanol. This shows that adaptation is not only useful in improving strains, but is equally useful for pinpointing key bottlenecks in metabolically engineered strains."
The study is published in Biotechnology and Bioengineering. (ANI)
-
Bangalore Gold Silver Rate Today, March 9, 2026: Gold and Silver Prices Fall as US Dollar Strengthens -
Vijay-NDA Alliance On Cards? Pawan Kalyan Reportedly Reaches Out to TVK Chief -
Who Was Mojtaba Khamenei’s Wife Zahra Haddad-Adel and What Do We Know About Her? -
Who Is Aditi Hundia? Viral ‘Girl in Red’ & Ishan Kishan's Girlfriend Spotted During IND vs NZ Final -
Hyderabad Gold Silver Rate Today, 9 March 2026: Latest 24K, 22K Gold And Silver Rates In City -
Kerala Election 2026 Date: When Can You Expect EC To Announce Key Dates of Voting & Counting? -
Chennai MRTS Velachery–St Thomas Mount Line Opening on March 10 Faces Delay; Direct Beach Route to Start Later -
Mumbai Water Supply Cut For 24 Hours: Check Dates, Timings & Areas Affected by BMC Maintenance Disruption -
Hardik Pandya and Girlfriend Mahieka Sharma’s Celebration Video Goes Viral After India’s Win -
Bengaluru Hotels to Shut From Tomorrow March 10 as Commercial LPG Supply Stops -
Trisha's Net Worth: How Rich Is Thalapathy Vijay's Rumoured Girlfriend? -
Pune Electrician Arrested After Viral Video Shows Him Raising ‘Pakistan Zindabad’ Slogans, Watch
Click it and Unblock the Notifications
Sign in with Google