Results
… sequence analysis to recover the genomes of uncultivated microbes. We also apply labeling strategies that allow us to select specific uncultivated microbes for sequencing based on their level of metabolic …
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… drive innovations that cross the boundaries of the Plant, Fungal, Algal, Microbial, Metagenome, Metabolomics, …
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… must latch onto a larger host — often, a fellow archaeal microbe. Understanding how these hosts and hitchhikers … and convert it to usable organic compounds. However, no microbe works alone. Archaea, bacteria, and viruses all … hosts release organic carbon. Understanding these complex symbioses between organisms feeds into a better …
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… to soil carbon storage during simulated range shifts of plant-fungal symbionts … the gene regulatory networks governing terpenoid-mediated plant environment interactions to enable advanced bioenergy …
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… When warm waters stress corals, it might be their microbes, including their photosynthetic partner, that help …
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… functioning — particularly in their roles associated with plants (mycorrhizae, endophytes, growth promoters, or pathogens) and as the most efficient degraders of plant biomass. These abilities are crucial for sustainable plant biomass production as well as converting biomass into …
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… and massive reconstruction of genomes from uncultivated microbes (Nature 2019). Other projects in the group include …
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… and Materials (CMM): Genomic studies of microbial and plant metabolism reveal biological routes to recover, reuse, … Enhancing agriculture: JGI users explore beneficial plant–microbe interactions and nutrient cycling to enhance … or aquaculture, and related production systems. Invasive plant species; and first-generation biofuel targets (i.e. …
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