DNA detector

In-Depth

Using semiconductor crystals, biological probes and a laser, Johns Hopkins University engineers have developed a new method of finding specific sequences of DNA.

Using tiny semiconductor crystals, biological probes and a laser, Johns Hopkins University engineers have developed a new method of finding specific sequences of DNA by making them light up beneath a microscope.

The researchers, who say the technique will have important uses in medical research, demonstrated its potential in their lab by detecting a sample of DNA containing a mutation linked to ovarian cancer.

The Johns Hopkins team described the new DNA nanosensor in a paper published in the November 2005 issue of the journal Nature Materials.

“Conventional methods of finding and identifying samples of DNA are cumbersome and time-consuming,” said Jeff Tza-Huei Wang, senior author of the paper and supervisor of the research team. “This new technique is ultra sensitive, quick and relatively simple. It can be used to look for a particular part of a DNA sequence, as well as for genetic defects and mutations.”

The technique involves an unusual blend of organic and inorganic components. “We are the first to demonstrate the use of quantum dots as a DNA sensor,” Wang said.

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