![](/-/media/ber/images/highlights/2018/BER-2018-08-a-lrg.jpg?h=618&w=495&la=en&hash=3A5304AC550525689C689D64BD5F10E206440C21677B438268A0221379B2A199)
Complex Networks Identify Genes for Biofuel Crops
Systems biology leads the way to exascale computing on Summit supercomputer.
Systems biology leads the way to exascale computing on Summit supercomputer.
New class of solvents breaks down plant biomass into sugars for biofuels and bioproducts in a closed-loop biorefinery concept.
Optimizing lithium-sulfur battery electrolytes for long life.
Catalog of candidate genes involved in plant-microbe relationships.
Researchers develop a method of identifying gene expression patterns in drought-resistant plants.
New algorithm lets biologists harness massively parallel supercomputers to make sense of a “data deluge.”
Using genetic engineering, scientists improve biomass growth and conversion in woody and grassy feedstocks.
Novel observations suggest a great potential of measuring global gross primary production via solar-induced fluorescence.
Multiple plausible hypotheses in how maximum photosynthetic rates scale across the Earth lead to substantial variability in predicting carbon uptake.
Flexible, tunable technique warms plants without need for electricity, aiding ecosystem research in remote locales.
Chemical genomic-guided engineering of gamma-valerolactone-tolerant yeast.
Certain species of trees retain stored water, limit root growth to survive three months without water.
Signup for the Office of Science’s GovDelivery email service, and check the box for the Biological and Environmental Research Program in your subscriber preferences.
Subscribe