摘要
利用DNA链置换反应分别求解二输入和三输入异或门逻辑电路.对于二输入异或门电路,将不同输入值编译成不同数量输入链,将特定数量的输入链加入反应器中,与反应器中的反应链发生链置换反应,充分反应后,通过判断检验器中绿色荧光分子明灭从而得到异或门电路的解;二输入异或门逻辑电路可以推广到三输入异或门逻辑电路.该方法具有操作简单,实验成本低,可行性高等优点.
Two-input and three-input XOR gate logic circuits were solved by DNA chain replacement reaction.For two input XOR gates,different input values are compiled into different input chains.When a certain number of input chains are added to the reactor,a chain displacement reaction occurs with the reaction chain in the reactor.After a full reaction,the solution of the XOR gate circuit can be obtained by judging that the green fluorescent molecules in the detector are extinguished.Two-input XOR logic circuits can be extended to three-input exclusive or gate logic circuit.This method has the advantages of simple operation,low experimental cost and high feasibility.
作者
刘璐璐
殷志祥
唐震
CHEN Zhao;YIN Zhixiang;TANG Zhen(AnHui University Of Science&Technology,School of Mathematics and Big Data,Huainan 232001,China;Shanghai University of Engineering Science,School of Mathematics,Physics and Statistics,Shanghai 201620,China)
出处
《牡丹江师范学院学报(自然科学版)》
2020年第3期1-6,共6页
Journal of Mudanjiang Normal University:Natural Sciences Edition
基金
国家自然科学基金项目(61672001,61702008)
安徽省自然科学基金项目(1808085MF193)。
关键词
DNA链置换反应
异或门
逻辑电路
DNA strand displacement reaction
xor gate
logic circuit
