The university’s Campaign for Transforming Biomedicine—which raised $1.17 billion over eight years—closed this summer with a bang: three significant capstone gifts, made in the campaign’s final months, to directly support Rockefeller science.
Memories are inherently shifty. A neuroscientist with a new lab of her own, Rajasethupathy likens the brain’s memory function to Wikipedia—always evolving, occasionally unreliable.
A common birthplace of new genes, the male testes are a hotspot for biological innovation. Within these organs, scientists have found a trove of virgin genetic sequences—and a better understanding of how evolution moves forward.
Researchers have shown that antibodies against Zika might be involved in causing birth defects in babies born to infected women. The findings might provide important caveats for the development of a vaccine.
Cell division is critical to creating and sustaining life. It’s also incredibly difficult to study. Now, advanced technology is enabling researchers to take their understanding of this process to the next level.
With science constantly advancing, ethical boundaries need regular recalibration. It’s a task scientists cannot do alone, says Brivanlou; all of society needs to engage.
For the brain to function smoothly, its cells must carefully regulate which proteins are produced and when. By studying gene regulation, researchers are now shedding light on complex brain conditions like autism and stroke.
Navigating fruit flies do not have the luxury of GPS, but they do have a kind of neural compass. In a new study, researchers found that the animals decide which way to turn by comparing this internal compass needle to a fixed goal.
