Genetic Regulation of Differentiated Microbial Filaments
Discovering how a microbe makes complex structures to perform complex functions.
Discovering how a microbe makes complex structures to perform complex functions.
Enzyme “promiscuity” and “monogamy” play a significant role in myriad biochemical reactions.
Knowing how Poplar trees make wood enables us to optimize their use for bioenergy production.
How atoms move in biochemical reactions - a fast and accurate method to model all the atoms.
A microbe able to produce hydrogen without typical poisoning by oxygen production.
Nanoscale features in rocks enable more carbon dioxide to be trapped as a solid carbonate material underground.
Understanding how two microbes work together to produce the greenhouse gas methane.
A microbe not known for cellulose degradation has 15 cellulases that may improve biofuel production.
Insights into the origin of ligninases can help develop processes to convert biomass into bioenergy.
A polar alga with lipid metabolism enzymes may prove useful harnessing algae for biodiesel production.
New insights into the effect of light quality on bacterial metabolism and respiration.
Microbial communities solve environmental contamination.