Results
… 2020 collaborative FICUS projects. Through the Facilities Integrating Collaborations for User Science (FICUS) program, two Department of Energy (DOE) Office of Science national user facilities—the … The U.S. Department of Energy Joint Genome Institute, a DOE Office of Science …
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… Developing and validating an integrated approach to genome recovery … been utilizing metagenomics as a way to study a collection of hard-to-culture microbes, but the efficacy of this approach would be greatly increased by having the … The work conducted by the U.S. Department of Energy Joint Genome Institute is supported by the Office …
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… Streamlined genome with precise gene targeting transforms … The Science Scientists have fully decoded the genome of an oil-producing green alga, and demonstrated precise … bio-based materials essential for national security, supply-chain resilience and diversifying industrial feedstock …
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… Newly developed chemiluminescent biosensors shed light on how bacteria function and … di-GMP (Guanine Monophosphate) is found in nearly all types of bacteria and interacts with cell signaling networks that … illumination to produce a signal, making them useful in a wider range of environments. This new technology enables …
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… Do metabolic pathways from engineered yeasts still work in cell-free environments? (Spoiler: Yes.) Think of cells as tiny factories: within their walls they have … , researchers led by Hal Alper at The University of Texas at Austin and Michael Jewett of Northwestern …
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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 feedstocks with less fertilizer. For millions of … The U.S. Department of Energy Joint Genome Institute, a DOE Office of Science …
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… Do metabolic pathways from engineered yeasts still work in cell-free environments? … Yeast strains engineered for the biochemical conversion of glucose to value-added products are limited in chemical … an alternative format for chemical synthesis in the absence of cell growth by isolating the soluble components of lysed …
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… Dr. Louie joined the JGI in 2014 to develop the metabolomics program, … efforts to expand the metabolomics capabilities and product offerings for JGI users. Using cutting-edge mass … techniques, the platform delivers rich metabolite profiles from diverse biological and environmental samples in …
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… Dr. Sneddon is the Advanced Analysis Group Lead in the Data Science and Informatics Department at the Joint Genome Institute. His team of engineers and scientists builds and operates the data and … science. Dr. Sneddon is an accomplished leader in data, software, compute, and AI for large-scale genomics and lab …
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… Dr. Cole is interested in studying how plants interact with their environment. Prior to joining the Joint … University of California, San Diego (PhD, 2011) Rensselaer Polytechnic Institute (B.S., 2006) … List of pubs available on NCBI … Implementation of the Index of Cell Identity as an R package …
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… Mr. Schmutz’s involvement with the JGI dates back to 1997, when he was … human chromosomes 5, 16, and 19. Following the completion of the Human Genome Project in 2003, he developed … assembly, and improvement strategies for de novo sequencing of eukaryotic organisms from simple yeasts to large …
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… Dr. Blow joined the JGI in 2009, and currently heads the Genome Analysis group. In this role he supervises the Genome Assembly, QA/QC, and … BS in Biochemistry and Biological Chemistry, Nottingham University, UK PhD in Genomics, University of Cambridge, UK Postdoctoral training Wellcome Trust Sanger …
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