Engineered Yellow-Seeded Camelina Packs More Oil
Scientists use gene editing to create a yellow-seeded camelina that may boost oil yield.
Scientists use gene editing to create a yellow-seeded camelina that may boost oil yield.
Spatial transcriptomics, combined with single-cell expression profiling, reveals new information on plant/arbuscular mycorrhizal interactions.
Leveraging a new genome annotation tool, researchers identified ‘talented’ microorganisms with genes for transforming polyphenols in peatlands.
A specialized microscope allows investigations of single molecules of cellulase enzymes.
Research on ammonia-oxidizing microorganisms reshapes scientists’ perspective on those microbes’ physiology and ecological niche.
Entangled photons reveal completely different information about an organic molecule than traditional spectroscopy techniques.
Scientists create a genome-wide map of gene activity in bacteriophages.
Assessing the genomes of soil bacteria around the globe, researchers identified three dominant life strategies linked to different types of soil.
In a warmer world, microbes in drought-stricken soils convert less carbon to carbon dioxide and more to volatile intermediates.
Yarrowia lipolytica reallocates its production of protein toward energy and lipid metabolism to grow on hydrocarbons and produce high-value chemicals.
Microorganisms and their metabolisms help silica to mineralize near deep ocean methane seeps.
Experiments find increased temperatures and carbon dioxide rapidly altered peatland carbon stocks, highlighting peatlands’ vulnerability to climate change.