Washington, DC— Pairing cutting-edge chemistry with artificial intelligence, a multidisciplinary team of scientists found ...

How did we get here and are we alone? Working at the nexus of biology, Earth science, and astronomy, Carnegie Science investigators boldly traverse disciplinary boundaries to reveal the relationships ...

From teeming biodiversity hotspots to inhospitable environments where resilient microorganisms thrive, life has reshaped our planet. What can it teach our researchers about searching for signs of life ...

Carnegie Science astronomers are advancing a new understanding of cosmic processes, from the synthesis of “star stuff”—the raw materials from which everything in the universe is constructed—to the ...

Our experts reveal how our planet formed, evolved, differentiated into layers and developed the interconnected system of dynamic processes that made it habitable and enabled life to arise and thrive.

The Drosophila Gateway™ Vector collection is a set of 68 Gateway-based vectors designed to express epitope-tagged proteins in Drosophila culture cells or flies. At its core is Invitrogen's Gateway™ ...

Sugars serve as the principal energy source, basic building material and important signal molecules in both animals and plants. Their distribution throughout the organism is controlled by sugar ...

10.1111/j.1365-2966.2012.20586.x The presence of substructure in galaxy groups and clusters is believed to be a sign of recent galaxy accretion and can be used to probe not only the assembly history ...

Marine oxygen-deficient zones represent a natural source of nitrous oxide (N2O), a potent greenhouse gas and ozone-depleting agent. To investigate controls on N2O production, the responses of ammonia ...