High levels of the sticky, pathogen-trapping webs produced by certain immune cells were associated with the most severe cases of COVID-19 in a clinical study.
Full story at Cold Spring Harbor Laboratory
All in Cold Spring Harbor Laboratory
High levels of the sticky, pathogen-trapping webs produced by certain immune cells were associated with the most severe cases of COVID-19 in a clinical study.
Full story at Cold Spring Harbor Laboratory
A single chandelier cell reaches out to connect and communicate with more than 100 other neurons.
Full story at Cold Spring Harbor Laboratory
More than 200,000 large-scale DNA variations give tomatoes their diverse flavors, determine crop yields, and influence other important traits.
Full story at Cold Spring Harbor Laboratory
New research suggests that cigarette smoke spurs the lungs to make more ACE2, the protein that the coronavirus responsible for COVID-19 uses to enter human cells.
Full story at Cold Spring Harbor Laboratory
Experts in cancer, neuroscience, immunology and developmental biology chart a roadmap to illuminate the complex relationship between cancer and the nervous system.
Full story at Cold Spring Harbor Laboratory
Student scientists use DNA barcoding to survey plants, animals, and microbes in Cold Spring Harbor.
Full story at Cold Spring Harbor Laboratory
Processes that make the brain especially receptive to change during development also activate periods of heightened learning in adulthood.
Full story at Cold Spring Harbor Laboratory
Genetic modification can redirect a plant’s resources away from an overprepared immune system and into enhanced seed production.
Full story at Cold Spring Harbor Laboratory
After genome editing, the unruly plant produces compact stems and larger, more abundant fruit.
Full story at Cold Spring Harbor Laboratory