Humans have relied on plants for millennia to treat a variety of neurological ailments. Now, researchers are using microscopic worms to better understand how plant molecules shape behavior – and perhaps develop better new drugs.
Truly grasping the importance of biodiversity means diving down into the microscopic organisms in our soils and out to human social relationships affecting our ecosystems. The more we know, the better we can address threats to species diversity.
The order of arrival determines which invasive grasses predominate, according to a combination of experiments and computational modeling. The results could help in efforts to preserve the native plants that remain.
Scientists at Stanford have solved a 50-year-old mystery that could open up new areas of research into muscle disorders. The study revealed a human enzyme that modifies muscle proteins to help them grow.
Why did the first big, complex organisms spring to life in deep, dark oceans where food was scarce? A new study finds great depths provided a stable, life-sustaining refuge from wild temperature swings in the shallows.
A new discovery reveals how cells decide what to do with misshapen proteins – whether to salvage or destroy them – and could guide research into neurodegenerative diseases and other cellular processes.