New Method Knocks Out Yeast Genes with Single-Point Precision
Researchers can precisely study how different genes affect key properties in a yeast used industrially to produce fuel and chemicals.
Researchers can precisely study how different genes affect key properties in a yeast used industrially to produce fuel and chemicals.
Identified genes involved in plant cell wall polysaccharide production and restructuring could aid in engineering bioenergy crops.
How yeast partition carbon into a metabolite may offer insights into boosting production for biofuels.
A combined experimental and modeling approach contributes to understanding small proteins with potential use in industrial, therapeutic applications.
Scientists explore how drought-tolerant plants communicate to nearby microorganisms, suggesting ways to engineer more resilient bioenergy crops.
Scientists determine the accuracy of computational methods used to study the sulfate radical approach to purifying water.
Scientists devise new approach that gathers data on the interplay between permafrost, soil, and vegetation.
Distortion of water droplet surface may increase the likelihood of the droplet freezing.
A new modeling framework helps understand the consequences of future sea-ice loss in the Arctic.
Researchers discover how certain bacteria may safeguard plant growth during a drought, making way for strategies to improve crop productivity.
The mechanism responsible for creating intense magnetic fields in laser-driven plasmas also helps tear the fields apart.
A new phenomena forms vortices that trap particles, impeding electron avalanches that harm fusion reactors.