Abstract
AbstractConcatenated logic circuits operating as a biocomputing keypad‐lock security system with an automatic reset function have been successfully constructed on the basis of toehold‐mediated strand displacement and three‐way‐DNA‐junction architecture. In comparison with previously reported keypad locks, the distinctive advantage of the proposed security system is that it can be reset and cycled spontaneously a large number of times without an external stimulus, thus making practical applications possible. By the use of a split‐G‐quadruplex DNAzyme as the signal reporter, the output of the keypad lock can be recognized readily by the naked eye. The “lock” is opened only when the inputs are introduced in an exact order. This requirement provides defense against illegal invasion to protect information at the molecular scale.
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