利用蛋白质组比较和最佳反转距离研究细菌全基因组系统发育

2005 IEEE Computational Systems Bioinformatics Conference - Workshops (CSBW'05) Pub Date : 2005-08-08 DOI:10.1109/CSBW.2005.29

N. Khiripet

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引用次数: 6

摘要

传统的系统发育树重建是基于单个基因的点突变。这种方法很难适用于基因几乎相同的基因组，也很难捕捉到进化场景。为了重建一个更确定的细菌基因组系统发育树，从国家生物技术信息中心(NCBI)下载了所有目前可用的完整细菌基因组序列。每个单独的蛋白质组与收集物进行对比，并提供了许多与其他蛋白质组共享的同源基因。此外，每两个基因组的共系可以被认为是两个有符号的排列。一种排列可以在有限的步骤中重新排列成另一种排列，称为反转距离。这两种方法结合起来，产生了一个与细菌分类高度一致的系统发育树。

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Bacterial whole genome phylogeny using proteome comparison and optimal reversal distance

Traditional phylogenetic tree reconstruction is based on point mutations of a single gene. This approach is hardly suitable for genomes whose genes are almost identical and hardly captures evolutionary scenarios. To reconstruct a more conclusive phylogenetic tree of bacterial genome, all currently available complete bacterial genomic sequences were downloaded from the National Center for Biotechnology Information (NCBI). Each individual proteome was blasted against the collection and provided a number of homologous genes shared with others. Moreover, the syntenies of each two genomes can be considered as two signed permutations. One permutation can be rearranged into another in finite steps, called reversal distance. These two measures were combined and yield a phylogenetic tree that is highly consistent with the bacterial taxonomy.

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2005 IEEE Computational Systems Bioinformatics Conference - Workshops (CSBW'05)

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