Biosystem Dynamics & Design
Biosystem Dynamics and Design focuses on regulation of spatial and temporal parameters of metabolic processes in microbes, fungi, and plants. By gaining a detailed understanding of how biological systems respond to and modify their environment, EMSL can improve strategies for modifying and manipulating plants, fungi and microbes to advance systems biology for bioenergy and biorenewables.
Within this science theme, EMSL will employ our research and that of our users for:
- Metabolic compartmentalization: Integrate molecular-scale information to determine the design principles underlying biological compartments, structures and networks such as lipid particles and peroxisomes in plants and fungi, and the carboxysome in cyanobacteria.
Biosystem Dynamics and Design focuses on regulation of spatial and temporal parameters of metabolic processes in microbes, fungi, and plants. By gaining a detailed understanding of how biological systems respond to and modify their environment, EMSL can improve strategies for modifying and manipulating plants, fungi and microbes to advance systems biology for bioenergy and biorenewables.
Within this science theme, EMSL will employ our research and that of our users for:
- Metabolic compartmentalization: Integrate molecular-scale information to determine the design principles underlying biological compartments, structures and networks such as lipid particles and peroxisomes in plants and fungi, and the carboxysome in cyanobacteria.
EMSL scientists major contributors at AGU annual meeting
Statistical Methodology for Characterization of Macromolecular Similarity
Seattle Structural Genomics Center for Infectious Disease (SSGCID) -- Year X
Unraveling Molecular Complexity of Natural Systems
Koppenaal a co-editor of just published encyclopedia
Genes, early environment sculpt the gut microbiome
Integration of Substrate Oxidation with Protein Synthesis and Cellular Signaling in a Complex Biological System
OHSU-PNNL NORTHWEST CO-LABORATORY FOR INTEGRATED OMICS
Agile BioFoundry
Pages
Leads
Dr. Baker is the science theme lead for Biosystem Dynamics and Design, which focuses on spatial and temporal dynamics of biological pathways in microbes, fungi and plants to advance our understanding of the carbon cycle and accelerate production...