Alexis Vallée-Bélisle and his research team have developed DNA-based thermometers that allow the measurement of temperature at the nanoscale. Design: Kotkoa. |
Topics: Biology, DNA, Nanotechnology
Researchers have known for more than 60 years now that DNA molecules unfold when heated and refold when cooleddown again. More recently they also discovered that living organisms employ biomolecules such as proteins or RNA (a molecule similar to DNA) as nanothermometers thanks to this unfolding and folding. “Inspired by these natural nanothermometers, we have now created various DNA structures that can fold and unfold at specifically defined temperatures,” explains team leader Alexis Vallée-Bélisle.
The team used the simple Watson–Crick base pair code of DNA and the so-called Hoogsteen interactions to create their DNA structures. The good thing about DNA is that its chemistry is relatively simple and programmable, says team member David Garreau. “DNA is made from four different nucleotide molecules, A, C, G and T. Nucleotide A binds weakly to nucleotide T, whereas nucleotide C binds strongly to nucleotide G. Using these simple rules, we were able to create DNA structures that can be programmed to fold and unfold at specific temperatures.”
Nanotech Web: DNA makes tiny thermometer, Belle Dumé
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