Arizona Public Radio | Your Source for NPR News
Play Live Radio
Next Up:
0:00
0:00
0:00 0:00
Available On Air Stations
SERVICE ALERT:

Our 88.7 transmitter site sustained a fire of unknown origin. We have installed a bypass that has returned us to full power, though repairs are still ongoing. Our HD service remains inoperable. We apologize for the inconvenience and appreciate your patience as we continue to work on the transmitter. Online streaming remains unaffected.

A Database Of All Things Brainy

The Allen Cell Types Database catalogs all sorts of details about each type of brain cell, including its shape and electrical activity. These cells, taken from the visual area of a mouse brain, are colored according to the patterns of electrical activity they produce.
Courtesy of Allen Institute for Brain Science
The Allen Cell Types Database catalogs all sorts of details about each type of brain cell, including its shape and electrical activity. These cells, taken from the visual area of a mouse brain, are colored according to the patterns of electrical activity they produce.

When the brain needs to remember a phone number or learn a new dance step, it creates a circuit by connecting different types of neurons.

"The fact that you remember very specific things — that first summer day when you kissed your first girl — that is due to the great specificity of your neural circuits. So that's what we have to understand."

Scientists still don't know how many types of neurons there are or exactly what each type does.

"How are we supposed to understand the brain and help doctors figure out what schizophrenia is or what paranoia is when we don't even know the different components?" says Christof Koch, president and chief scientific officer of the Allen Institute for Brain Science, a nonprofit research center in Seattle.

So the institute is creating a freely available online database that eventually will include thousands of nerve cells. For now, the Allen Cell Types Database has detailed information on 240 mouse cells, including their distinctive shapes.

"They look like different trees," Koch says. "Some fan out at the top. Some are like a Christmas tree; they fan out at the bottom. Others are like three-dimensional fuzz balls."

The database also describes each cell by the electrical pattern it generates. And eventually it will include information about which genes are expressed.

Once researchers have a complete inventory of details about the brain's building blocks, they'll need to know which combinations of blocks can be connected, Koch says. After all, he says, it is these connections that make us who we are.

"The fact that you remember very specific things — that first summer day when you kissed your first girl — that is due to the great specificity of your neural circuits," Koch says. "So that's what we have to understand."

The Allen Institute plans to release a database of different types of human brain cells next year.

Copyright 2021 NPR. To see more, visit https://www.npr.org.

Jon Hamilton is a correspondent for NPR's Science Desk. Currently he focuses on neuroscience and health risks.