University Science Highlights | U.S. DOE Office of Science (SC)

Cells of the green microalga Auxenochlorella protothecoides expressing a red fluorescent protein. These algae accumulate large quantities of oils stored in lipid droplets.

Not Lost in Translation: Algae Show How to Make Two Proteins from One Messenger RNA

Scientists uncover a hidden feature of protein translation in green algae, offering a new perspective on the basic rules of gene expression.

These plates show how genetic modifications affect yeasts’ resistance to oxidative stress. Deleting the genes responsible for building cell walls reduced resistance in one species; adding a gene that encodes a key enzyme improved resistance in another.

Machine Learning Reveals Genes That Help Yeasts Resist Stress

Study provides a framework for connecting genetic mechanisms and trait variation across diverse yeast species.

A guide RNA strand, in purple, guides CRISPR to a DNA strand. Scientists devised a method to identify genes that can be suppressed to customize microbes for biotechnology applications.

Investigating Cyanobacteria’s Many Paths to Adaptation

A new approach accelerates how quickly scientists can identify genes involved in environmental acclimation and understand bacterial stress.

A group of researchers in a laboratory, with four men standing up and a man and woman sitting down

Robotic Lab Revolutionizes Plant Bioengineering

A fast, automated, and high-throughput pipeline is improving the speed of plant engineering

Series of five different line graphs indicating how the code matched the experimental data fairly well

Improving Predictions for Fusion Device Transport

Researchers validate a new workflow for plasma transport models, aiding future fusion device design.

An illustration with blue pairs of electrons on the left against a teal background and pink pairs of electrons on the right against a pink background with a honeycomb layer between them

Can a Superconductor Also Be a Magnet?

Special graphite flakes are defying conventional thought in physics by showing that a material can be a superconductor and a magnet at the same time.

Illustration showing how different molecular surfaces result in pollutants moving through them differently, with a molecular diagram linked to a graph showing different probabilities. There is a series of three pictures above illustrating a farm, a connected power system, and a water filtration system.

Improving Continuum-Scale Models with Molecular-Scale Interface Science

Researchers propose a new approach to modeling adsorption processes that affect how pollutants move through soil, water, and rock.

Graph comparing a neutron star with a quark-matter core vs. a nuclear matter core in mass vs. radius. The quark matter core star would have less mass and radius than the nuclear matter core, as stars with smaller radii and more mass are too unstable.

New Clues on Twin Neutron Stars and the Extreme Physics Inside

Scientists have new insights into factors that determine how twin neutron stars—stars with the same mass but different sizes and compositions—can coexist.

Microscopy image with a zoom-in to show the layers of different substances, as well as a graph showing resistivity changes substantially depending on temperature.

Harnessing Entangled Spin Fluctuations for Advanced Spin Electronics

The spin fluctuations of an insulating quantum magnet determine how electricity flows in a nearby metal film.

Illustration showing a crystal structure, with balls connected by lines and a blue ball increasing in size moving above the structure

Thin Materials and Fat Electrons: A Recipe for New Quantum Phenomena

The 2D material cerium silicon iodide contains the same heavy electrons responsible for heavy fermion physics, something so far seen only in 3D materials.

Graphic showing how a thin film can go through compressive strain on top of a substrate to become superconducting as well as a line graph showing how the most strain induces superconductivity

Unveiling the Link Between High Pressure and Superconductivity

Researchers have learned how to retain superconductivity at ambient pressure in a new class of high temperature superconductors.

Illustration of alpha fusion processes in stars and reactions used on Earth floating above an image of the Earth

Predictive Theory Revises Understanding of Alpha Processes During the Big Bang and in Massive Stars

Theoretical calculations enable more accurate determination of reaction rates for modelling primordial lithium-6 abundance and massive stars’ lifecycle.