Approximation Algorithms for Sorting Permutations by Length-Weighted Short Rearrangements

Q3 Computer Science

Electronic Notes in Theoretical Computer Science Pub Date : 2019-08-30 DOI:10.1016/j.entcs.2019.08.004

Alexsandro Oliveira Alexandrino , Guilherme Henrique Santos Miranda , Carla Negri Lintzmayer , Zanoni Dias

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引用次数: 2

Abstract

Genome rearrangements are events that affect large portions of a genome. When using the rearrangement distance to compare two genomes, one wants to find a minimum cost sequence of rearrangements that transforms one into another. Since we represent genomes as permutations, we can reduce this problem to the problem of sorting a permutation with a minimum cost sequence of rearrangements. In the traditional approach, we consider that all rearrangements are equally likely to occur and we set a unitary cost for all rearrangements. However, there are two variations of the problem motivated by the observation that rearrangements involving large segments of a genome rarely occur. The first variation adds a restriction to the rearrangement's length. The second variation uses a cost function based on the rearrangement's length. In this work, we present approximation algorithms for five problems combining both variations, that is, problems with a length-limit restriction and a cost function based on the rearrangement's length.

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长度加权短重排排列排序的近似算法

基因组重排是影响基因组大部分的事件。当使用重排距离来比较两个基因组时，人们希望找到一个将一个基因组转化为另一个基因组的最小重排序列。由于我们将基因组表示为排列，我们可以将这个问题简化为排序具有最小重排序列代价的排列的问题。在传统的方法中，我们认为所有的重排发生的可能性都是一样的，我们为所有的重排设定了一个统一的代价。然而，由于观察到涉及基因组大片段的重排很少发生，这个问题有两种变体。第一个变化对重排的长度增加了限制。第二种变体使用基于重排长度的成本函数。在这项工作中，我们提出了结合这两种变化的五个问题的近似算法，即具有长度限制约束和基于重排长度的成本函数的问题。

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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