Analysis and Implementation of Sorting by Transpositions Using Permutation Trees

机译：置换树的换位排序分析与实现

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Feng and Zhu defined the permutation tree structure to achieve a running time of O(nlogn) for Hartman and Shamir's 1.5-approximation algorithm for sorting genomes by transpositions. The present work describes the first available implementation of this algorithm using permutation trees. Our analysis of Hartman and Shamir's algorithm also leads to a modified 1.5-approximation algorithm that achieves in most cases a shorter sequence of transpositions that sorts a given permutation. Although our modified algorithm has a worst-case running time of O(n~2 logn), in our experiments using real genomic data the running time is still very small.

机译：Feng和Zhu定义了排列树结构，以实现Hartman和Shamir的1.5近似算法（通过转座对基因组进行排序）的运行时间O（nlogn）。本工作描述了使用置换树的该算法的第一个可用实现。我们对Hartman和Shamir算法的分析还得出一种改进的1.5逼近算法，该算法在大多数情况下可实现对给定排列进行排序的更短换位序列。尽管我们的改进算法的最坏情况下运行时间为O（n〜2 logn），但是在我们使用实际基因组数据进行的实验中，运行时间仍然很小。

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来源
《Advances in bioinformatics and computational biology.》|2011年|p.42-49|共8页
会议地点 Brasilia(BR);Brasilia(BR)
作者
Marcelo P. Lopes; Marilia D.V. Braga; Celina M.H. de Figueiredo; Rodrigo de A. Hausen; Luis Antonio B. Kowada;
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作者单位

Universidade Federal do Rio de Janeiro;

Instituto Nacional de Metrologia, Normalizagao e Qualidade Industrial;

Universidade Federal do Rio de Janeiro;

Universidade de Sao Paulo;

Universidade Federal Fluminense;

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会议组织
原文格式 PDF
正文语种 eng
中图分类生物工程学（生物技术）;生物工程学（生物技术）;
关键词
comparative genomics; genome rearrangement; sorting by transpositions; approximation algorithm; permutation tree;

机译：比较基因组学；基因组重排；按换位排序；近似算法排列树;

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专利

1. An Upper Bound For Sorting Permutations With A Transposition Tree [J] . Devika K Das, Bhadrachalam Chitturi, Sai Satwik Kuppili Procedia Computer Science . 2020,第5期

机译：用换置树排序排序的上限
2. UPPER BOUNDS FOR SORTING PERMUTATIONS WITH A TRANSPOSITION TREE [J] . BHADRACHALAM CHITTURI Discrete mathematics, algorithms, and applications . 2013,第1期

机译：用换位树对置换进行排序的上界
3. SoRT2: a tool for sorting genomes and reconstructing phylogenetic trees by reversals, generalized transpositions and translocations [J] . Chen-Cheng Huang, Chin Lung Lu, Chuan Yi Tang, Nucleic acids research . 2010,第suppla2期

机译：SoRT2：用于通过逆转，广义转座和易位来对基因组进行分类和重建系统树的工具
4. Analysis and Implementation of Sorting by Transpositions Using Permutation Trees [C] . Marcelo P. Lopes, Marilia D.V. Braga, Celina M.H. de Figueiredo, Brazilian Symposium on Bioinformatics . 2011

机译：使用排列树进行分类分类和实施
5. Implementation and performance analysis of a multi-meshed tree routing protocol for MANETS. [D] . Thareja, Rohit. 2011

机译：MANETS的多网格树路由协议的实现和性能分析。
6. SoRT2: a tool for sorting genomes and reconstructing phylogenetic trees by reversals generalized transpositions and translocations [O] . Yen-Lin Huang, Chen-Cheng Huang, Chuan Yi Tang, 2010

机译：SoRT2：用于通过逆转广义转座和易位来对基因组进行分类和重建系统树的工具
7. SoRT2: a tool for sorting genomes and reconstructing phylogenetic trees by reversals, generalized transpositions and translocations [O] . Huang, Yen-Lin, Huang, Chen-Cheng, Tang, Chuan Yi, 2010

机译：SoRT2：用于通过逆转，广义转座和易位来对基因组进行分类和重建系统树的工具
8. TT: A Program That Implements Predictor Sort Design and Analysis [R] . Verrill, S. P., Green, D. W., Herian, V. L. 1997

机译：TT：实施预测器排序设计和分析的程序

Analysis and Implementation of Sorting by Transpositions Using Permutation Trees

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