Identifying the enzymes that give the tiny bacteria this power could make it easier to turn switchgrass and other plant products into fuel in factories. Ethanol makers will produce about 49 billion litres of the renewable fuel this year, chiefly from corn. A 2007 law requires annual use of 136 billion litres from 2022 and…
Cow rumen metagenome study on PlanetArk
To make sure they found the right microbes in action, they used a cow that had a hole surgically opened right into its rumen. The researchers needed to find the bacteria that worked in airless environments like a cow’s insides.Rubin’s team used metagenomics, a gene-sequencing approach that maps the DNA of a community of organisms…
Cow rumen metagenome study on ScienceBlog
When it comes to breaking down plant matter and converting it to energy, the cow has it all figured out. Its digestive system allows it to eat more than 150 pounds of plant matter every day. Now researchers report that they have found dozens of previously unknown microbial enzymes in the bovine rumen — the…
Cow rumen metagenome study on Bioscience Technology
“Industry is seeking better ways to break down biomass to use as the starting material for a new generation of renewable biofuels,” said JGI Director and project lead Eddy Rubin. “Together with our collaborators, we are examining the molecular machinery used by microbes in the cow to break down plant material.” Read more on Bioscience…
Cow rumen metagenome study on Green Car Congress
Researchers have used a metagenomic analysis to discover dozens of previously unknown microbial enzymes in the bovine rumen—the cow’s primary grass-digestion chamber—that contribute to the breakdown of switchgrass, a renewable biofuel energy source. The study, reported in the current issue of the journal Science, tackles a major barrier to the development of more affordable and…
Cow rumen metagenome study on FavStocks
In the new study, the researchers focused on switchgrass, a promising biofuels crop. After incubating the switchgrass in the rumen for 72 hours, researchers conducted a genomic analysis of all of the microbes that adhered to switchgrass.This metagenomic approach, led by Edward Rubin, of the DOE Joint Genome Institute and the Lawrence Berkeley National Laboratory,…
Cow rumen metagenome study on LabSpaces
Rubin’s postdoctoral fellows Matthias Hess and Alex Sczyrba used one of the most promising large-scale bioenergy crops — switchgrass (Panicum virgatum) – and let the cows’ microbial symbionts located in the foregut perform their magic. Read more on LabSpaces
Cow rumen metagenome study on PhysOrg
Bovines are thought to have first appeared on the landscape millions of years ago and were domesticated by humans about 10,000 years ago. Rumen microbes evolved to produce molecular machines in the form of enzymes able to efficiently deconstruct plant cell wall polysaccharides such as cellulose and hemicellulose into their constituent small sugar molecules. Another…
Cow rumen metagenome study on ScienceBlog
The researchers also were able to assemble the genomes of 15 previously “uncultured” (never before grown in a lab) microbes, said Hess, who is first author on the new study. Several techniques, including sequencing the genomes of individual cells and comparing those to the assembled genomes, validated this approach, he said. Read more on ScienceBlog.
Cow rumen metagenome study on redOrbit
In the new study, the researchers focused on switchgrass, a promising biofuels crop. After incubating the switchgrass in the rumen for 72 hours, researchers conducted a genomic analysis of all of the microbes that adhered to switchgrass. This “metagenomic” approach, led by Edward Rubin, of the DOE Joint Genome Institute and the Lawrence Berkeley National…