DOE Joint Genome Institute

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Ehux – The Alga of Many Faces

Known by the researchers who sequenced it at the Department of Energy Joint Genome Institute as “The Beast”, and considered the “Flowers of the Ocean” by others, Emiliania huxleyi has proved to be a single-celled coccolithophore of many faces. The third most abundant group of phytoplankton, Ehux is the basis of most ocean food chains,… [Read More]

Capsella provides insight into the genomic results of selfing

About 200,000 years ago, Capsella rubella began self fertilizing and split from C. grandiflora. To study the effects of selfing on C. rubella’s genome, the Department of Energy Joint Genome Institute sequenced and compared it with C. grandiflora and members of the closely related Arabidopsis genus – the first plant ever sequenced and model species… [Read More]

Fungal genome offers clues on how leaf-cutter ants farm

Leaf-cutter ants are well-known examples of insects that use microbes to gain access to nutrients, farming “gardens” in which bacteria and fungi break down plant mass. In an article featured on the cover of the June 2013 issue of Applied Environmental Microbiology, a team including DOE Joint Genome Institute researchers and longtime collaborators at the Great… [Read More]

Microbial genomes help propose phylum name

Metagenomicsand single-cell genomics are tools helping researchers learn more about the “biological dark matter” that has not been cultivated and studied in the laboratory. In an article published May 14, 2013 in Nature Communications. [Read More]

Marine metagenome offers clues to ocean nitrogen cycle

Nitrification is the process by which ammonia is converted first into nitrites and then into nitrates, a form of nitrogen that can then be used by plants to grow. However, understanding how the nitrogen cycle works in marine environments is equally crucial. Until 1977, scientists believed that ammonium could only be oxidized by aerobic bacteria…. [Read More]

Termite diets dictate microbes in their guts

Realtors and homeowners cringe at the thought of termites on their properties, but for bioenergy researchers, these insects are rich harbors of microbial communities that can break down woody lignocellulose. In 2007, the DOE Joint Genome Institute sequenced the microbes in the hindgut of termites from Costa Rica (from the Nasutitermesgenus) to identify the genes… [Read More]

A peach of a genome with breeding lessons for biofuels crops

Several plants sequenced by the DOE Joint Genome Institute have been considered “flagship” genomes due to their importance to DOE mission and plant science. Among these plants are poplar, the first tree sequenced and a candidate bioenergy feedstock, and soybean, the primary source of biodiesel in the United States. Other plant genomes are important for… [Read More]