Compressive sensing DNA microarrays.

Wei Dai, Mona A Sheikh, Olgica Milenkovic, Richard G Baraniuk
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引用次数: 79

Abstract

Compressive sensing microarrays (CSMs) are DNA-based sensors that operate using group testing and compressive sensing (CS) principles. In contrast to conventional DNA microarrays, in which each genetic sensor is designed to respond to a single target, in a CSM, each sensor responds to a set of targets. We study the problem of designing CSMs that simultaneously account for both the constraints from CS theory and the biochemistry of probe-target DNA hybridization. An appropriate cross-hybridization model is proposed for CSMs, and several methods are developed for probe design and CS signal recovery based on the new model. Lab experiments suggest that in order to achieve accurate hybridization profiling, consensus probe sequences are required to have sequence homology of at least 80% with all targets to be detected. Furthermore, out-of-equilibrium datasets are usually as accurate as those obtained from equilibrium conditions. Consequently, one can use CSMs in applications in which only short hybridization times are allowed.

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压缩传感DNA微阵列。
压缩感知微阵列(csm)是基于dna的传感器,使用组测试和压缩感知(CS)原理进行操作。在传统的DNA微阵列中,每个基因传感器被设计为对单个目标做出反应,而在CSM中,每个传感器对一组目标做出反应。我们研究了同时考虑CS理论和探针-靶DNA杂交的生物化学约束的csm设计问题。提出了合适的交叉杂交模型,并在此基础上提出了探头设计和信号恢复的几种方法。实验室实验表明,为了实现准确的杂交分析,一致的探针序列需要与所有待检测目标具有至少80%的序列同源性。此外,非平衡数据集通常与从平衡条件下获得的数据集一样准确。因此,可以在只允许短杂交时间的应用中使用csm。
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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