| Chemists from North Carolina State University have performed a DNA-based logic-gate operation within a human cell. The research may pave the way to more complicated computations in live cells, as well as new methods of disease detection and treatment. |
Chemists from North Carolina State University have performed a DNA-based logic-gate operation within a human cell. The research may pave the way to more complicated computations in live cells, as well as new methods of disease detection and treatment.
Their results appear in the Journal of the American Chemical Society.
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NC State chemist Alex Deiters and graduate student James Hemphill wanted to see if a DNA-based logic gate could detect the presence of specific microRNAs in human cells. The researchers utilized a DNA-based logic gate known as an “AND” gate that was engineered to respond to the presence of two specific microRNAs – known as miRNA-21 and miRNA-122.
Just as computer operations utilize different inputs to create a particular output, the researchers’ DNA-based Boolean logic gate was activated only when both miRNA-21 and miRNA-122 “inputs” were present in cells. If they were present, the gate generated an “output” by releasing a fluorescent molecule.
Deiters believes that use of these logic gates could lead to more accurate tests and treatments for human disease, especially cancer.
“The fluorescent molecule we used in this logic-gate design could be useful as a marker that identifies a cancer cell,” he says. “Or, instead of directing the gate to release a fluorescent molecule in the presence of particular microRNAs, we could attach therapeutic agents that are released to treat the disease itself.”
SOURCE \NC State
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