A Mouse Watches Film Noir And Offers Clues To Human Consciousness | KUOW News and Information

A Mouse Watches Film Noir And Offers Clues To Human Consciousness

Jul 13, 2016
Originally published on July 13, 2016 4:23 pm

Letting mice watch Orson Welles movies may help scientists explain human consciousness.

At least that's one premise of the Allen Brain Observatory, which launched Wednesday and lets anyone with an Internet connection study a mouse brain as it responds to visual information.

"Think of it as a telescope, but a telescope that is looking at the brain," says Christof Koch, chief scientific officer of the Allen Institute for Brain Science, which created the observatory.

The hope is that thousands of scientists and would-be scientists will look through that telescope and help solve one of the great mysteries of human consciousness, Koch says.

"You look out at the world and there's a picture in your head," he says. "You see faces, you see your wife, you see something on TV." But how does the brain create those images from the chaotic stream of visual information it receives? "That's the mystery," Koch says.

There's no easy way to study a person's brain as it makes sense of visual information. So the observatory has been gathering huge amounts of data on mice, which have a visual system that is very similar to the one found in people.

The data come from mice that run on a wheel as still images and movies appear on a screen in front of them. For the mice, it's a lot like watching TV on a treadmill at the gym.

But these mice have been genetically altered in a way that allows a computer to monitor the activity of about 18,000 neurons as they respond to different images. "We can look at those neurons and from that decode literally what goes through the mind of the mouse," Koch says.

Those neurons were pretty active when the mice watched the first few minutes of Orson Welles' film noir classic Touch of Evil. The film is good for mouse experiments because "It's black and white and it has nice contrasts and it has a long shot without having many interruptions," Koch says.

At one point, the camera follows a couple through the streets of a Mexican border town. As a mouse watches the action, its brain activity changes in response to the images. For example, brain cells that respond to vertical lines start firing as the couple moves past a building with vertical columns.

That response is just one tiny part of the brain system that allows a mouse to create an internal map of its world. Other experiments show which brain cells fire when a mouse recognizes another animal, like a butterfly.

By making all of this data publicly available, scientists around the world can test their own ideas about the nature of perception and experience and even consciousness, Koch says. "And we expect like in astronomy or other fields of science that they themselves will uncover things in our data that we never suspected."

Future versions of the observatory will explore nonvisual areas of the mouse brain, Koch says, including those involved in making decisions.

Copyright 2017 NPR. To see more, visit http://www.npr.org/.

ARI SHAPIRO, HOST:

This next story is about a mouse, a movie and the quest to understand human consciousness. NPR's Jon Hamilton reports on a new project at the Allen Institute for Brain Science in Seattle.

JON HAMILTON, BYLINE: The project is called the Allen Brain Observatory, and it gives anyone with an Internet connection a close-up view of the mouse brain in action. Christof Koch, the institute's chief scientific officer, says he hopes the effort will help solve one of the great mysteries of human consciousness.

CHRISTOF KOCH: You look out at the world, and there's a picture in your head. You see faces. You see your wife. You see something on TV. So how does that picture get into the head? That's the mystery of visual experience or any other experience.

HAMILTON: There's no easy way to study the cells in a person's brain as it makes sense of visual information, so the Institute has been gathering huge amounts of data on mice. They have a visual system that is very similar to the one found in people. The data come from mice that run on a wheel while images appear on a screen in front of them. It's a lot like watching TV on a treadmill at the gym. But Koch says these mice have been genetically altered in a way that allows a computer to monitor the activity of about 18,000 neurons.

KOCH: We can look at those neurons and, from that, decode what goes - literally what goes through the mind off the mouse while they're running past various visual stimulus images - for example, photographic scenes or movies.

(SOUNDBITE OF FILM, "TOUCH OF EVIL")

UNIDENTIFIED ACTOR: (As character) Oh.

HAMILTON: Movies including Orson Welles' film noir classic "Touch Of Evil."

KOCH: It's black and white, and it has nice contrasts. And it has a shot long without having many interruptions.

HAMILTON: The shot follows a couple through the streets of a Mexican border town. As a mouse watches the action, different cells light up depending on what's on the screen. For example, Koch says, certain brain cells fire when a mouse sees vertical lines.

KOCH: There's one scene where the couple moves past a garage, and there's a very strong edge - the edge of the - of the house, of the building. And the cell in the mouse responds to that, as well.

HAMILTON: That's just one tiny part of the system that allows a mouse to create an internal map of its world. Other experiments show which brain cells fire when a mouse recognizes another animal, like a butterfly. Koch says that by making all of this data publicly available, scientists around the world can test their own ideas about the nature of perception and experience and even consciousness.

KOCH: And we expect that they themselves will uncover things in our data that we never suspected because we didn't look because we didn't ask the right question because we don't necessarily know the right question to ask.

HAMILTON: Koch says future versions of the observatory will explore other areas of the mouse brain, including those involved in making decisions. Jon Hamilton, NPR News. Transcript provided by NPR, Copyright NPR.