Neuroscience

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Researchers Close In On The Most Important Question In Neuroscience With Fly Study By scrutinizing the twists, turns, wiggles and squirms of 37,780 fruit fly larvae, neuroscientists have created an unprecedented view of how brain cells create behavior. The results, published March 27 in Science, draw direct connections between neurons and specific movements. "Understanding how neural activity gives rise to behavior is the most important question in neuroscience," says neuroscientist Kay Tye of MIT, who was not involved in the research. The new study provides a way for scientists to start answering that question, she says. "I think this is a really important approach that ‘s going to be very influential." Scientists led by Marta Zlatic of the Howard Hughes Medical Institute ‘s Janelia Farm Research Campus in Ashburn, Va., took advantage of an existing set of specially mutated flies. In each animal, small groups of neurons, usually between 2 and 15 cells, were engineered to respond to blue light. By activating handfuls of neurons with light and analyzing videos of the resulting behaviors, the researchers systematically explored most of the 10,000 neurons in Drosophila melanogaster larvae’s brain. Read more

Researchers Close In On The Most Important Question In Neuroscience With Fly Study

By scrutinizing the twists, turns, wiggles and squirms of 37,780 fruit fly larvae, neuroscientists have created an unprecedented view of how brain cells create behavior. The results, published March 27 in Science, draw direct connections between neurons and specific movements.

"Understanding how neural activity gives rise to behavior is the most important question in neuroscience," says neuroscientist Kay Tye of MIT, who was not involved in the research. The new study provides a way for scientists to start answering that question, she says. "I think this is a really important approach that ‘s going to be very influential."

Scientists led by Marta Zlatic of the Howard Hughes Medical Institute ‘s Janelia Farm Research Campus in Ashburn, Va., took advantage of an existing set of specially mutated flies. In each animal, small groups of neurons, usually between 2 and 15 cells, were engineered to respond to blue light. By activating handfuls of neurons with light and analyzing videos of the resulting behaviors, the researchers systematically explored most of the 10,000 neurons in Drosophila melanogaster larvae’s brain.

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Filed under fruit flies neural activity neurons optogenetics neuroscience science

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