A View from Susan Young Rojahn
A Near-Whole Brain Activity Map in Fish
Neuron-level whole-brain activity maps could one day help explain brain function and disfunction.
Image: Neurons glow red as they fire in this whole zebrafish larva brain. Credit: Misha Ahrens and Philipp Keller
Researchers have for the first time been able to image most of an entire vertebrate brain at the level of single cells, reports Nature.
A study from the Howard Hughes Medical Institute’s Janelia Farm Research Campus, published in Nature Methods on Monday, shows that modifications to existing microscopy techniques enable researchers to take snap shots of neuron-by-neuron activity in the whole brain of a living zebrafish larvae. The zebrafish larvae, whose bodies are transparent and brains are tiny, were genetically engineered to produce a protein in their neurons that glows in response to the chemical changes that occur when that neuron fires.
With conventional techniques, capturing the activity of even 2,000 neurons at once is difficult. With the modified fish and microscopy methods, the researchers were able to capture the activity of at least 80 percent of the baby fish’s 100,000 neurons over a time period of just 1.3 seconds.
The result is an encouraging announcement for proponents of the Brain Activity Map project, a still-developing scientific collaboration to establish new technologies that can record the activity of all individual neurons in a brain circuit simultaneously (see “The Brain Activity Map”). According to Nature News, Rafael Yuste, a neurobiologist at Columbia University in New York and leader of the Brain Activity Map project, thinks the zebrafish results are “phenomenal.”
“It is a bright star now in the literature, suggesting that it is not crazy to map every neuron in the brain of an animal,” [says Yuste].
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