基于磁珠光电检测系统的DNA计算模型

2011 Sixth International Conference on Bio-Inspired Computing: Theories and Applications Pub Date : 2011-09-27 DOI:10.1109/BIC-TA.2011.24

Fei Li, Zheng Li, Jin Xu

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引用次数: 2

摘要

SAT问题是应用广泛的np完全问题之一。为了解决这一问题，本文提出了一种基于磁珠光电DNA检测平台的DNA计算模型。利用普通光学照明和平台的光电二极管将光强转化为电能。与杂交前检测到的光电流相比，光强的变化可以清晰地诊断DNA杂交的信号。该方法可以成功地区分单碱基错配DNA和完全匹配DNA序列，节省了扩增杂交信号的时间。该检测平台的磁性能很容易地消除问题的不可行解，适合于DNA计算。通过在该平台上进行DNA计算解决了一个SAT问题，实验结果表明，该检测平台具有明显的优势，并具有构建光电读出全自动DNA计算机的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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DNA Computing Model Based on Photoelectric Detection System with Magnetic Beads

SAT problem is one of important NP-complete problems with widespread applications. In this paper, a new DNA computing model based on the photoelectric DNA detection platform with magnetic-beads is proposed to solve this problem. Ordinary optical illumination and photodiode of the platform are utilized to turn light intensity into electricity. Compared with the detected photocurrent before hybridization, the signal of DNA hybridization can be distinctly diagnosed by the light intensity changing. With this technique, single base mismatched DNA could be successfully distinguished from perfectly matched DNA sequence, which saves the time of amplifying hybridization signal. This detection platform fits for DNA computing because the magnetic property could easily eliminate unfeasible solutions of problem. The experimental result of a SAT problem, which is solved by DNA computing on this platform, reveals the obvious benefits of this detection platform and its potential to be used to construct a fully automatic DNA computer with photoelectric readout.

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2011 Sixth International Conference on Bio-Inspired Computing: Theories and Applications

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