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Posted: Jan 26, 2006
DNA-wrapped carbon nanotubes serve as sensors in living cells
(Nanowerk News) Single walled carbon nanotubes wrapped with DNA can be placed inside living cells and detect trace amounts of harmful contaminants using near infrared light, report researchers at the University of Illinois at Urbana-Champaign. Their discovery opens the door to new types of optical sensors and biomarkers that exploit the unique properties of nanoparticles in living systems.
(Source: University of Illinois at Urbana-Champaign)
To make their sensors, the researchers begin by wrapping a piece of
double-stranded DNA around the surface of a single-walled carbon nanotube,
in much the same fashion as a telephone cord wraps around a pencil.
The DNA starts out wrapping around the nanotube with a certain shape
that is defined by the negative charges along its backbone.
When the DNA is exposed to ions of certain atoms – such as calcium,
mercury and sodium – the negative charges become neutralized and
the DNA changes shape in a similar manner to its natural shape-shift
from the B form to Z form. This reduces the surface area covered by
the DNA, perturbing the electronic structure and shifting the nanotube’s
natural, near infrared fluorescence to a lower energy.
“The change in emission energy indicates how many ions bind to
the DNA,” said graduate student Daniel Heller, lead author of
the Science paper. “Removing the ions will return the emission
energy to its initial value and flip the DNA back to the starting form,
making the process reversible and reusable.”
The researchers demonstrated the viability of their measurement technique
by detecting low concentrations of mercury ions in whole blood, opaque
solutions, and living mammalian cells and tissues – examples where
optical sensing is usually poor or ineffective. Because the signal is
in the near infrared, a property unique to only a handful of materials,
it is not obscured by the natural fluorescence of polymers and living
“The nanotube surface acts as the sensor by detecting the shape
change of the DNA as it responds to the presence of target ions,”
Co-authors of the paper with Strano and Heller are graduate student
Esther Jeng and undergraduate students Tsun-Kwan Yeung, Brittany Martinez,
Anthonie Moll and Joseph Gastala. The work was funded by the National
Source: University of Illinois
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