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… Miscanthus sequence offers insights into benefits of polyploidy and perenniality. The Science A … numerous wild Miscanthus lineages to better understand the genetic diversity of the grass, which could help in … This work was supported by the Energy Biosciences Institute and the DOE Center for Advanced Bioenergy and …
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… Maize produces a family of compounds that protects it against infections — using surprisingly few enzymes. The Science … They screened panels of hundreds of maize lines for genetic variation in the ability make zealexins, and … sesquiterpenoids, National Science Foundation Plant-Biotic Interactions Program (grant no. 1758976 to E.S. and P.Z.) …
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… Analysis reveals the microbial community involved in a bioremediation effort. The Science In 1999, the Environmental Protection Agency declared … ) conducted by the U.S. Department of Energy Joint Genome Institute (JGI) ( https://ror.org/04xm1d337 ), a DOE Office …
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… In April 2020, we mark both the 50th celebration of Earth … Earth and DNA are close to our JGI hearts, we’re highlighting genomic science research that feels especially relevant … they need. Karolina is working to better understand what genetic features make CAM possible. So, she’s studying …
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… Sequencing technology has changed dramatically over the last 25-plus years since the JGI’s inception, making it possible for researchers … are at the core of many environmental processes, and their genetic makeup forms the basis of their behavior in the … The U.S. Department of Energy Joint Genome Institute, a DOE Office of Science User Facility …
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… A new view into a symbiosis could offer benefits to address climate change: pulling atmospheric carbon into soil and boosting biofuel … for tuning this symbiosis. “Those are great candidates for genetic engineering. Our hope is that the community at large … The U.S. Department of Energy Joint Genome Institute, a DOE Office of Science User Facility …
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… Dr. Grigoriev joined the JGI in 2003, following his postdoctoral training at UC Berkeley and work in the … to learn more about the program's areas of focus, major initiatives and more. … Russia PhD in Molecular Biology, Research Institute for Genetics and Selection of Industrial Organisms, Moscow, …
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… Do metabolic pathways from engineered yeasts still work in cell-free environments? … senior authors. “But this has been done most commonly in bacterial-based systems, and so one of the things that I … the yeasts received fine-tuning of gene expression through genetic rewiring with CRISPR-Cas9 that enhanced their …
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… Mr. Schmutz’s involvement with the JGI dates back to 1997, when he was working for the Stanford Human Genome Center, now the HudsonAlpha Institute for Biotechnology. There he constructed the … to learn more about the program's areas of focus, major initiatives and more. …
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… Dr. Vogel joined JGI in 2014 to establish a plant functional genomics program. … sequenced mutant collections, transformation technology, epigenetic analysis techniques) and utilizing these resources … grass that is well suited to experimental manipulation in the laboratory because of its compact genome, diploid …
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… Do metabolic pathways from engineered yeasts still work in cell-free environments? … senior authors. “But this has been done most commonly in bacterial-based systems, and so one of the things that I … the yeasts received fine-tuning of gene expression through genetic rewiring with CRISPR-Cas9 that enhanced their …
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