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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]

DOE JGI’s Tringe in PopSci’s Brilliant 10

Susannah Green Tringe of the DOE Joint Genome Institute (DOE JGI) has been named one of 2011’s “Brilliant 10,” the annual list compiled by Popular Science magazine of top young researchers. In adding her name to the list, which appears in the October issue, the magazine recognized her $2.5 million grant from the DOE Early… [Read More]

Soil biocrust microbial genome

One of the DOE JGI’s 2011 Community Sequencing Program projects involves studying biological soil crusts to understand their role in the global carbon cycle. Found in arid lands which make up nearly half of the planet’s total land mass, communities of lichens, mosses and cyanobacteria use soil particles to form biocrusts less than half an… [Read More]

Dry rot (Serpula) genome project in BasqueResearch.com

Science journal has published research work on the sequence of the genome of the Serpula lacrymans fungus and in which the Public University of Navarre (UPNA) lecturers Gerardo Pisabarro de Lucas and José Antonio Oguiza Tomé, professor and senior lecturer in Microbiology respectively, participated. The research, largely funded by the US Department of Energy through… [Read More]

Dark ocean project in Climate Action

To understand the world’s climate, we must understand how the 70% of the Earths surface that is covered with water behaves. Very little is known about the processes below 200m, or the area where photosynthesis is not possible due to the lack of light penetration. Scientists from the U.S. Department of Energy Joint Genome Institute… [Read More]

DOE JGI’s Prochnik in Discovery News

“This one-celled organism hunts and eats bacteria as an amoeba, swims around looking for a better environment as a flagellate, and then hunkers down and waits for good times as a cyst,” said Simon Prochnik, a computational scientist at the U.S. Department of Energy’s Joint Genome Institute. “It is a very rare process to go… [Read More]

Xylose-fermenting yeast project in Ethanol Producer

Using Mother Nature as their teacher, researchers at the U.S. DOE’s Great Lakes Bioenergy Research Center, along with the DOE’s Joint Genome Institute, have sequenced the genomes of two types of yeasts found in bark beetles and then compared and contrasted the results with other yeasts’ genome sequences to determine which can best convert the… [Read More]

Eucalyptus genome project on Science in Public

The genome of one of Australia’s biggest Eucalyptus trees, the Flooded Gum or Eucalyptus grandis, has now been mapped, allowing scientists and conservationists an insight into the secrets of an important piece of Australiana.Eucalyptus has become the most popular plantation tree in the world – with millions of hectares planted in Africa, America, Europe and… [Read More]

Dry rot (Serpula) genome on ScienceNewsline

As reported online July 14 in Science Express, an international team of scientists including DOE JGI researchers compared the genome of Serpula lacrymans, the second brown rot fungus to have its genome sequenced, against 10 other published fungal genomes. The DOE JGI sequenced seven of these genomes among them Postia placenta, the first brown rot… [Read More]

Dry rot (Serpula) genome project on eNews Park Forest

In 2007 the US Department of Energy’s Joint Genome Institute sequenced Serpula lacrymans in order to see if the way it breaks down cellulose in wood could be harnessed for biofuel production. An international team analysing the genome have found the enzyme mechanisms that could explain the aggressive decay caused by this form of dry… [Read More]