Research on the Addition, Subtraction, Multiplication and Division Complex Logical Operations Based on the DNA Strand Displacement

Abstract

In recent years, the development of biological computers has become faster and faster. In order to adapt to the development of science and technology, some novel logic circuits designs are necessary. In this paper, a complex molecular combinational logic circuit is designed to perform large-scale biological information processing by compound logic operation of addition, subtraction, multiplication and division. The design of compound logic operations of addition, subtraction, multiplication and division based on DNA strand has four inputs signals and two output signals, and the dual-track design theory is used to perform the logic circuit operation, and the corresponding output result can be obtained in timely and accurately. The whole reaction progress of logic circuit operations can be programmed and simulated by the Visual DSD software. According to the simulation results of the Visual DSD software, the method of DNA strand displacement is feasible to achieve more complex logic computations. This investigation for the addition, subtraction, multiplication and division complex logical operations of a binary number may have a great prospect for the development and application in the biological information processing, medicine diagnosis, molecular computing, and so on.