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To study single molecules, Block has pioneered the use of optical tweezers,
tiny laser-based "tractor beams" that produce miniscule piconewton forces to
drag around molecules and allow measurements of displacements on the order of a
nanometer. "You can stop and stall molecules, w follow their motion. Recently,
we've studied the backtracking of RNA polymerase: when it makes a mistake, it
can actually back up by five bases, scoop off the wrong thing and start again,"
says Block. While biological nanotechnology "hasn't even arrived at its infancy
yet," says Block, "biological nanoscience is a very exciting place to be right
now, because the techniques now exist to truly study proteins, and we're
learning so much about them."
Here's To Biology: Nature's Own Nanomachines Dr. Steve Block, Biology and
Applied Physics
Nature's own marvelous nanoscale machines include motors that spin bacterial
flagella at up to 1000 revolutions per second and polymerases that step along
DNA and RNA to facilitate the flow of genetic information. Block, along with
other Stanford researchers such as Professors W. E. Moerner (Chemistry) and
Steve Chu (Physics), are studying Nature's machines through single molecule
science. This young field is devoted to following molecules one at a time
rather than observing their averaged behavior, as has been done traditionally.
To understand why average properties may obscure molecular behavior, "Consider
a ship traveling from New York to San Francisco," says Block. "If it's small
enough, it will travel down into the Caribbean and go across the Panama Canal
and then back up to San Francisco. If it's a big oil tanker, it won't fit
through the Panama Canal; it's got to go all the way around Cape Horn. But the
average path of a ship traveling from New York to San Francisco would probably
come out somewhere in the middle of the Amazon where there is in fact no route
at all!"
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