Andrea C. Bardales, Quynh Vo, Dmitry M Kolpashchikov
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引用次数: 0
摘要
对于任意复杂度的计算电路来说,一个功能完整的布尔算子就足够了。我们将 YES(缓冲器)与 NOT(反相器)和两个 NOT 四路结(4J)DNA 门连接起来,分别得到了 IMPLY 和 NAND 布尔运算函数,每个函数都代表了一个功能完整的门。研究结果表明,基于单个 NOT 或 NOT 与 YES 门的组合,可以创建任意复杂度的 DNA 计算电路,而这在电子计算机中是不可能实现的。因此,我们得出结论,基于 DNA 的电路和分子计算可能会带来电子学无法预见的机遇。
Singleton {NOT} and Doubleton {YES; NOT} Gates Act as Functionally Complete Sets in DNA-Integrated Computational Circuits
A functionally complete Boolean operator is sufficient for computational circuits of arbitrary complexity. We connected YES (buffer) with NOT (inverter) and two NOT four-way junction (4J) DNA gates to obtain IMPLY and NAND Boolean functions, respectively, each of which represents a functionally complete gate. The results show a technological path towards creating a DNA computational circuit of arbitrary complexity based on singleton NOT or a combination of NOT and YES gates, which is not possible in electronic computers. We, therefore, concluded that DNA-based circuits and molecular computation may offer opportunities unforeseen in electronics.
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