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… (they are “polyploid”) and their complex genomes are more difficult to sequence and assemble, in turn limiting … Summary Sugarcane is a cultivated crop that very efficiently converts solar energy into plant biomass, which … this reference sequence, the team relied on bacterial artificial chromosomes (BACs), vectors that can hold large …
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… Interested in reading more JGI intern and mentor success stories? Read more below. …
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… bacteria’s central carbon and energy metabolism, to obtain more nutrients from the environment. Demonstrating that the … and their impacts on the ecosystems can vary is a step toward developing more efficient predictive ecosystems models. Next, the …
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… with fellow interns and scientists alike. Want to learn more about their experience? Watch the short video below. Video Transcript: Ti’Yanna Watson : Hi, I’m … tell you what they’re working on, and it helps you become more knowledgeable and well-rounded. Whether it’s something …
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… the frontiers of environmental and energy genomics. For more information about the science depicted, click here . …
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… the steps outlined below. Click the drop-downs to learn more about each step in the process. If you have any …
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… its energy, building blocks and regulatory machinery toward chemical production — a coordinated response that had … study provides a blueprint that engineers can use to design more efficient microbial factories. Identifying specific genes, …
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… , methane gas warms the atmosphere as much as 25 times more quickly than even carbon dioxide. The EPA attributes … drive solutions into stemming methane-emissions as well as efficient engineering of biofuels. Since 2010, the JGI has … to build on Hungate 1000 genomes and cultures to work toward a variety of methane-mitigation goals. One aim is …
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