How Larval Fruit Fly Brains Convert Sensory Signals to Movement
A wiring map diagrams more than half a million neuronal connections in the first complete connectome of Drosophila and holds clues about which brain architectures best support learning.
How Larval Fruit Fly Brains Convert Sensory Signals to Movement
How Larval Fruit Fly Brains Convert Sensory Signals to Movement
A wiring map diagrams more than half a million neuronal connections in the first complete connectome of Drosophila and holds clues about which brain architectures best support learning.
A wiring map diagrams more than half a million neuronal connections in the first complete connectome of Drosophila and holds clues about which brain architectures best support learning.
Though scientists don’t yet know much about it, a newly described process called erebosis might have profound implications for how the gut maintains itself.
Shoring up the tissues that separate neurons and other brain cells from the circulatory system in fruit flies and mice can prolong life in the presence of a tumor.
In both Drosophila and mosquitoes, protection lasts for generations following a single maternal exposure to positive-sense single-stranded RNA viruses.