DNA纠错码:无交叉。

2009 IEEE Symposium on Computational Intelligence in Bioinformatics and Computational Biology Pub Date : 2009-03-30 DOI:10.1109/CIBCB.2009.4925705

D. Ashlock, S. Houghten

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引用次数: 21

摘要

编辑度量上的DNA纠错码为可容忍测序错误的测序项目创建可嵌入标记。当一个序列库有多个序列源时，使用嵌入式标记可以跟踪序列起源。进化算法是目前最著名的优化DNA纠错码的技术。在本研究中，我们解决了在优化DNA纠错码的早期研究中使用的交叉算子的效用问题。所讨论的交叉操作符实际上是适得其反的。大多数交叉事件产生的结果违反了纠错所需的最小距离约束。测试了一种新的算法，一种改进的进化策略，并发现它可以定位记录大小的代码。更新了dna纠错码的最佳已知大小表。

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DNA error correcting codes: No crossover.

DNA error correcting codes over the edit metric create embeddable markers for sequencing projects that are tolerant of sequencing errors. When a sequence library has multiple sources for its sequences, use of embedded markers permit tracking of sequence origin. Evolutionary algorithms are currently the best known technique for optimizing DNA error correcting codes. In this study we resolve the question of the utility of the crossover operator used in earlier studies on optimizing DNA error correcting codes. The crossover operator in question is found to be substantially counterproductive. A majority of crossover events produce results that violate minimum-distance constraints required for error correction. A new algorithm, a form of modified evolution strategy, is tested and is found to locate codes with record size. The table of best know sizes for DNA-error correcting codes is updated.

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来源期刊

2009 IEEE Symposium on Computational Intelligence in Bioinformatics and Computational Biology

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