Pang Ko, Mahesh Narayanan, Anantharaman Kalyanaraman, Srinivas Aluru
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引用次数: 0
摘要
如果相应的蛋白质衍生物已知,dna -蛋白质比对算法可用于发现基因组序列中的编码序列。它们还可以通过使用来自相关物种的蛋白质来识别新测序的基因组的潜在编码序列。以前已知的算法要么解决一个简化的公式,要么牺牲最优性来实现实际实现。在本文中,我们提出了一个DNA-蛋白质比对问题的综合公式,以及一种算法,该算法仅使用四个大小为(m + 1) x (n + 1)的表来计算O(mn)时间内的最优比对,其中m和n分别是DNA和蛋白质序列的长度。我们还开发了一个蛋白质和DNA比对程序PanDA来实现所提出的解决方案。实验结果表明,该算法能产生高质量的对齐。
DNA-protein alignment algorithms can be used to discover coding sequences in a genomic sequence, if the corresponding protein derivatives are known. They can also be used to identify potential coding sequences of a newly sequenced genome, by using proteins from related species. Previously known algorithms either solve a simplified formulation, or sacrifice optimality to achieve practical implementation. In this paper, we present a comprehensive formulation of the DNA-protein alignment problem, and an algorithm to compute the optimal alignment in O(mn) time using only four tables of size (m + 1) x (n + 1), where m and n are the lengths of the DNA and protein sequences, respectively. We also developed a Protein and DNA Alignment program PanDA that implements the proposed solution. Experimental results indicate that our algorithm produces high quality alignments.
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