Longstanding theories of how plants rely on calcium waves to respond systemically to wounding and other stresses have been given fresh perspective. John Innes Center researchers have shown that ...
Longstanding theories of how plants rely on calcium waves to respond systemically to wounding and other stresses have been given fresh perspective. Longstanding theories of how plants rely on calcium ...
New insights on what causes Alzheimer's disease could arise from a recent discovery made by bioengineers from the University of California, San Diego. The finding concerns the infamous amyloid beta ...
Based on what we know today, the plant hormone auxin influences all aspects of plant growth and development. It makes corn thrive from germination to harvest, causes trees to grow skyward and date ...
Excessive calcium contributes to harmful inflammation in ischemic stroke, and targeting it may provide doctors with a new way to improve patient outcomes, new research from the University of Virginia ...
Eric Carl, in his much-loved children's book The Very Hungry Caterpillar, documents the transformation of a gluttonous caterpillar into a beautiful butterfly. For a scientist, metamorphosis poses many ...
Excessive calcium contributes to harmful inflammation in ischemic stroke, and targeting it may provide doctors with a new way to improve patient outcomes, new research from the University of Virginia ...
The hormone auxin is a key regulator of plant growth and development. But how it sets these processes in motion has been unclear. Scientists have now uncovered central details. Based on what we know ...