Results
… Since joining the DOE Joint Genome Institute in 2016, Dr. Otani has been studying … BS, Engineering, Tokyo Institute of Technology Master's, Biotechnology, University … Kunakom S, Otani H, Udwary DW, Doering DT, Mouncey NJ. Cytochromes P450 involved in bacterial …
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… A deep dive into microbial genomics reveals one bacterial species is made of four ecologically distinct groups with different lifestyles. The Science The bacterium SAR324 is unusually cosmopolitan. In the ocean’s North Pacific Subtropical Gyre, microbes tend …
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… Dr. Mouncey joined the DOE Joint Genome Institute in 2017 as the fourth Director in its 27-year history. He … to learn more about the program's areas of focus, major initiatives and more. … and managerial guidance for all aspects of the JGI. This includes responsibilities toward the JGI internal scientific …
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… Visualizing a novel, candidate viral genome found in the deep subsurface ecosystem. The Science Altiarchaea are carbon-fixing microbes and targets of multiple viruses in Earth’s deep … This work received funding by the Alfred P. Sloan foundation (grant number …
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… and postdoc at Lawrence Livermore National Laboratory, is using bioinformatics and isotopes to track how viruses influence the flow of carbon in permafrost. …
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… David Hibbett of Clark University fills us in on the kind of decay that makes shiitake mushrooms special. This week, he and 39 collaborators published a paper tracing how these mushrooms have evolved. …
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… diversity of large and giant viruses. While the microbes in a single drop of water could outnumber a small city’s population, the number of viruses in the same drop—the vast majority not harmful to humans … The U.S. Department of Energy Joint Genome Institute, a DOE Office of Science User Facility …
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… Camargo and Simon Roux, a few of the JGI researchers behind software that finds plasmids and viruses within microbial genomes. As mobile genetic elements like …
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… gases from Arctic permafrost. But to see what they’re doing, he first needs their DNA. …
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… we understood plants and how they adapt to their ever-changing environments better? We could unlock new innovations to drive more productive food, medicine, and bioenergy crops. But most available genomes are …
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