Our quest to understand the brain
The Allen Institute for Brain Science launched in 2003 with a goal to accelerate neuroscience research worldwide with the release of large-scale, publicly available atlases of the brain. Our research teams also conduct investigations into the inner workings of the brain to understand its components and how they come together to drive behavior and make us who we are. Read more about selected research studies below and keep an eye on this page for more Research Highlights coming soon:
Building a “periodic table” of brain cell types
Our researchers are working to define the “parts list” of the brain by cataloging the different types of neurons and other brain cells in the human and mouse brains. Research teams are studying the brain cells’ detailed shapes, their electrical properties and the suite of genes each individual cell turns on and off, all different properties which can define a distinct brain cell type. Because so many neurological diseases afflict only certain types of brain cells, this catalog will help researchers develop tools to better study and ultimately target treatments to those cell types. Data from these coordinated research teams make up the Allen Cell Types Database.
- A comprehensive ‘parts list’ of the brain built from its components, the cells October 31, 2018
- Scientists identify a new kind of human brain cell August 27, 2018
- First open database of live human brain cells October 25, 2017
- Allen Institute for Brain Science awarded ~$100 million to lead global collaborations that will build comprehensive atlases of brain cell types October 23, 2017
The brain’s wiring map
To understand the brain, we need to understand not only its building blocks, the cells, but how those building blocks fit together and interact with one another. Our researchers are working to define the mouse brain’s “connectome,” the 3D map of how neurons connect to each other. In a collaboration with research teams at Princeton University and Baylor College of Medicine, funded by the Intelligence Advanced Research Projects Activity, or IARPA, Allen Institute for Brain Science researchers are using a technique known as electron microscopy to map the billion neural connections present in a cubic millimeter of brain from the mouse visual cortex, a piece about the size of a grain of sand. When it’s complete, this will be the largest piece of brain ever mapped at such detail.
In a related effort, another team of researchers is working to define the mouse brain “connectome” by mapping the connections that different types of neurons make across the brain. Their goal is to understand the rules of how the brain is organized through its long-range connections. Data from this project is available through the Allen Mouse Brain Connectivity Atlas.
- The quest to unravel the connectome February 2, 2018
- IARPA awards $18.7 million contract to reconstruct neuronal connections March 10, 2016
Reading the activity of live human brain cells in the lab
Thanks to a unique collaboration with Seattle-area neurosurgeons, Allen Institute for Brain Science researchers are exploring the electrical properties of live human neurons. These precious cells come from patients who undergo brain surgery for epilepsy or brain tumors and agree to donate the small pieces of healthy tissue that have to be removed in the course of surgery. Our researchers are uncovering subtle but potentially important differences between human and mouse neurons of the same type, and are even exploring the properties of human neurons that have no rodent counterparts.
- This human neuron is on a different wavelength than its mouse counterpart December 5, 2018
- Human brain tissue stays alive in the lab for three days June 4, 2018
- The brain cells that drive schizophrenia May 24, 2018
Observing the brain in action
The Allen Brain Observatory takes a large-scale, standardized approach to studying neurons as they fire in a living animal. Researchers on the Observatory team are now able to watch — and ultimately to understand — how the mouse brain works in real time. Using mice that are genetically engineered so that different types of neurons glow when active, the research team measures the activity of individual cells in the mouse visual system as the animals observe different images and movies. Their ultimate goal? To understand the rules of computation that are used by brain cells and circuits to process visual information.
- A summer camp for computational neuroscience September 6, 2018
- OpenScope: The first shared observatory for neuroscience July 26, 2018
- Allen Brain Observatory launched July 13, 2016
Eavesdropping on the brain’s internal dialogue
Created in collaboration with the Allen Institute, imec, HHMI Janelia Research Campus and University College London, Neuropixels are thin silicon probes that can record from neurons in many parts of the brain simultaneously. Our researchers are now using these probes in the Allen Brain Observatory to listen to more than a thousand neurons’ conversations at once. Neuropixels make it possible to read out electrical activity from as many as nine visual areas in the mouse brain as the animals view images and movies. Ultimately, the researchers aim to map in detail how different parts of the brain work together to process visual information and use it to guide actions.