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Content Tagged "Igor Grigoriev"

Fungal genomics and coal formation in BioBased Digest

In Massachusetts, a group of 70 researchers led by David S. Hibbett of Clark University, in Worcester, Mass. and Igor V. Grigoriev of the Department of Energy’s Joint Genome Institute comparing the genomes of 31 fungi to determine how white rot fungi breaks down lignin and could be a major breakthrough in cellulosic ethanol technology. Read… [Read More]

White rot fungal genomics for biopulping in Biomass Magazine

Something special is happening with a research project focused on two white rot fungi genomes. Led by the U.S. DOE’s Joint Genome Institute, a team of international researchers is collaborating on a project to sequence and analyze the fungi strains to understand how enzymes present in the fungi break down plant biomass. It’s not the research… [Read More]

On white rot, coal and biofuels in ClimateWire

The evolutionary rise of a common fungus — white rot — is responsible for the end of underground coal formation 60 million years ago, scientists say in a paper published last week in Science.Ironically, that same fungus could now be a key element to help the world move away from fossil fuels by helping to create… [Read More]

Linking white rot fungi and the Carboniferous period in Scientific American

Now a new genomic analysis suggests why Earth significantly slowed its coal-making processes roughly 300 million years ago—mushrooms evolved the ability to break down lignin. “These white rot fungi are major decomposers of wood and the only organism that achieves substantial degradation of lignin,” explains mycologist David Hibbett of Clark University in Massachusetts, who led the research… [Read More]

1000 Fungal Genomes project in The Daily Barometer

Joey Spatafora, an associate professor at Oregon State University, is leading an international project to sequence the genomes of a thousand fungi, a project aptly named 1000 fungal genomes.    “It’s a really, really exciting time in fungal biology because we can sequence fungal genomes more easily than we could ten years ago,” Spatafora said. The Daily Barometer [Read More]

Fungal enzymes to improve biomass pretreatment processes

Many of the enzymes currently being used in the pretreatment processes for cellulosic biofuels production come from species that thrive at temperatures comfortable to humans (68°F-95°F). To speed up this process of converting polysaccharides to fermentable sugars, a goal driven by the nation’s Renewable Fuels Standard requirement that calls for the annual production of 36… [Read More]

Thermophilic fungi in Scientific American

Heat-loving fungi could provide a key enzyme for making low cost biofuel, and a team of “mushroom detectives” from the Department of Energy’s Joint Genome Institute think they’ve just nailed their man – er, fungus. Read more at Scientific American  [Read More]

Thermophilic fungi in energyNOW!

Next-generation biofuel refining is based on tweaking enzymes to break down plant walls and convert biomass to fermentable sugars. The research has two main goals. One is to find ways to cut down the energy input needed for biofuel processing.  Read more on energyNOW! [Read More]

Thermophilic fungi in Walnut Creek Patch

Research on fungi at the Joint Genome Institute in Walnut Creek is heating up the nation’s efforts to develop biofuels as an alternative to fossil fuels. Read more on the Walnut Creek Patch  [Read More]

Genomic analysis of self-fertilizing fungi

Filamentous fungi help decay plant material, a process which has applications for producing biofuels and other products. The model organism for filamentous fungi is Neurospora tetrasperma. Neurospora tetrasperma rosette (Image by Namboori B. Raju, Stanford University) Selected for the DOE JGI’s 2007 Community Sequencing Program, the fungi is of interest to researchers such as studying… [Read More]