Molecular Motor Struts Like Drunken Sailor
Molecular Motor Struts Like Drunken Sailor
To understand how molecular motors work, some researchers are creating animations. Here, each “leg” of a molecular motor called dynein moves as it progresses along a cellular structure called a microtubule. New data suggest that dynein’s walk is even stranger than the one modeled. View its movement in action (below).
Monty Python may claim credit for immortalizing the “silly walk,” but molecular biology beat the comedy troupe to the punch. It turns out that a tiny motor inside of us called dynein, one tasked with shuttling vital payloads throughout the cell’s intricate highway infrastructure, staggers like a drunken sailor, quite contrary to the regular, efficient poise of its fellow motors.
But researchers led by Samara Reck-Peterson, HMS assistant professor of cell biology, believe dynein’s theatrical strut and apparent inefficiency may help keep cells alive and healthy.
These findings appear online January 8 in Nature Structural & Molecular Biology.
Molecular motors, built from proteins, are a kind of transport service that keep cells functioning. They traffic essential chemical packages between the heart of the cell, the nucleus, and the cell periphery. In elongated cells such as neurons, this can be a big commute in cellular miles, equivalent to a person walking from Boston to Manhattan. The constant shuttling of materials by motors keeps cells alive, allows cells to move and divide, and talk to their neighbors.
It’s no surprise, then, that when these motors stop functioning, serious problems can result. In fact, defects in dynein-based transport have been linked to Lou Gehrig’s and Parkinson’s disease and the neurodevelopmental disease lissencephaly.
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Molecular motors, built from proteins, are a kind of transport service that keep us functioning by trafficking essential chemical packages throughout the cell. To understand how molecular motors work, some researchers are creating animations. Here, each “leg” of a molecular motor called dynein moves as it progresses along a cellular structure called a microtubule. New data—collected by a team led by Samara Reck-Peterson and published online Jan. 8, 2012, in “Nature Structural & Molecular Biology”—suggest that dynein’s walk is even stranger than the one modeled./Animation by Janet Iwasa.
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To understand how this essential protein machine works, Reck-Peterson and colleagues decided to study the dynamics of motor movement on the nanoscale by developing protein engineering methods and then implementing single molecule imaging technologies.
First, they purified dynein motors, whose “legs” were tagged with fluorescent markers, and microtubules, long filaments that serve as dynein’s highway. Next, they put these components on a microscope slide and directly visualized dynein motors stepping along microtubule tracks.
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Dynein can step sideways, forward, backward, take big and little steps. This is in real contrast to other motors. It may even be able to step around any number of cellular obstacles. In these animations, made by Janet Iwasa, the microtubule highways are in gray and each fluorescently labeled “leg” of dynein (top panel) is represented by a red or blue dot. In contrast to dynein, other motors, such as kinesin (lower panel), step much more regularly.
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“Dynein is critical for the function of every cell in our bodies,” said Reck-Peterson. “Deciphering the walking mechanism of this and other tiny machines may one day shed light on the molecular origins of certain diseases.”
This research was funded by the Rita Allen Foundation, the American Heart Association, the Harvard Armenise Foundation, and an NIH New Innovator award. Harvard affiliated co-authors included Weihong Qiu, Nathan Derr, Brian Goodman, and William Shih.
By David Cameron
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