rnaDesign:局部搜索RNA二级结构设计

2009 IEEE Symposium on Computational Intelligence in Bioinformatics and Computational Biology Pub Date : 2009-03-01 DOI:10.1109/CIBCB.2009.4925700

D. C. Dai, Herbert H. Tsang, K. Wiese

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引用次数: 6

摘要

RNA二级结构设计(SSD)问题是近年来新兴的研究课题，其应用包括定制药物设计和RNA纳米物体的自组装。本文提出了一种新的局部搜索算法rnaDesign，用于SSD的求解。通过与另一种算法RNAinverse的比较，对该算法在序列亲和性和结构特异性方面的性能进行了评价。对RNA二级结构进行了实验，包括三个生物学上存在的数据集和一个随机结构集。实证结果表明，rnadeign在结构可设计性方面优于rnareverse;rnaDesign设计的序列具有较好的热力学稳定性和相对较低的折叠能量。此外，我们通过参数调优实验证明，使用启发式搜索策略的组合可以获得更好的设计性能;启发式值的使用与解的质量之间也存在很强的相关性。

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rnaDesign: Local search for RNA secondary structure design

The RNA secondary structure design (SSD) problem is a recently emerging research topic motivated by applications such as customized drug design and the self-assembly of RNA nano-objects. This paper presents a novel local search algorithm, rnaDesign for SSD solving. An evaluation of the algorithm performance in terms of sequence affinity and structure specificity is made through comparison with another algorithm, RNAinverse. Experiments were performed on RNA secondary structures including three biologically existing data sets and one random structure set. Empirical results show that rnaDesign outperforms RNAinverse in terms of structure designability; sequences designed by rnaDesign also exhibit better thermodynamic stability with relatively lower folding energy. Furthermore, we demonstrate through parameter tuning experiments that using a combination of heuristic search strategies leads to better design performance; there also exists a strong correlation between the heuristic values in use and solution quality.

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2009 IEEE Symposium on Computational Intelligence in Bioinformatics and Computational Biology

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