PNA分子计算:PNA双相结构。

Filbert Totsingan, Rosangela Marchelli, Roberto Corradini
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引用次数: 5

摘要

分子计算可能是开发大规模并行计算协议最强大的工具之一。在本文中,第一个例子的使用PNA:PNA相互作用在分子计算描述。设计了一系列短的PNA序列,并对变量和解进行了四碱基延伸编码。在溶液和微阵列格式中测试了不同组合的组分的杂交。为了模拟硬件,在微阵列表面上标记了一系列代表解决方案的PNA。一系列表示变量的PNA,用TAMRA标记,用于询问设备,使其能够解决不确定的逻辑操作。结果表明,该系统能够求解高信噪比的双变量方程。本文拟从原理上证明PNA由于其结合的稳定性和特异性,最适合用于构建有机型计算机。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular computing by PNA:PNA duplex formation.

Molecular computing is potentially one of the most powerful tools for the development of massive parallel computing protocols. In the present paper, a first example of the use of PNA:PNA interactions in molecular computing is described. A series of short PNA sequences have been designed with a four base stretch coding for variables and solutions. Hybridization of the components in different combinations was tested both in solution and in a microarray format. A series of PNA representing the solutions were spotted on a microarray surface in order to simulate the hardware. A series of PNA representing the variables, labeled with TAMRA, were used to interrogate the device enabling to solve non-deterministic logic operations. The system was shown to be able to solve a two-variable equation with a high signal to noise ratio. This paper intends to provide a proof of principle that PNA, on account of their stability and specificity of binding, are most suitable for constructing organic-type computers.

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