包括 RNA 二级结构可提高系统发育树重建的准确性和稳健性。

Including RNA secondary structures improves accuracy and robustness in reconstruction of phylogenetic trees.

机构信息

Department of Bioinformatics, University of Würzburg, Am Hubland, 97074 Würzburg, Germany.

出版信息

Biol Direct. 2010 Jan 15;5:4. doi: 10.1186/1745-6150-5-4.

DOI:10.1186/1745-6150-5-4

PMID:20078867

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2821295/

Abstract

BACKGROUND

In several studies, secondary structures of ribosomal genes have been used to improve the quality of phylogenetic reconstructions. An extensive evaluation of the benefits of secondary structure, however, is lacking.

RESULTS

This is the first study to counter this deficiency. We inspected the accuracy and robustness of phylogenetics with individual secondary structures by simulation experiments for artificial tree topologies with up to 18 taxa and for divergency levels in the range of typical phylogenetic studies. We chose the internal transcribed spacer 2 of the ribosomal cistron as an exemplary marker region. Simulation integrated the coevolution process of sequences with secondary structures. Additionally, the phylogenetic power of marker size duplication was investigated and compared with sequence and sequence-structure reconstruction methods. The results clearly show that accuracy and robustness of Neighbor Joining trees are largely improved by structural information in contrast to sequence only data, whereas a doubled marker size only accounts for robustness.

CONCLUSIONS

Individual secondary structures of ribosomal RNA sequences provide a valuable gain of information content that is useful for phylogenetics. Thus, the usage of ITS2 sequence together with secondary structure for taxonomic inferences is recommended. Other reconstruction methods as maximum likelihood, bayesian inference or maximum parsimony may equally profit from secondary structure inclusion.

REVIEWERS

This article was reviewed by Shamil Sunyaev, Andrea Tanzer (nominated by Frank Eisenhaber) and Eugene V. Koonin.

OPEN PEER REVIEW

Reviewed by Shamil Sunyaev, Andrea Tanzer (nominated by Frank Eisenhaber) and Eugene V. Koonin. For the full reviews, please go to the Reviewers' comments section.

摘要

背景

在几项研究中，核糖体基因的二级结构已被用于提高系统发育重建的质量。然而，缺乏对二级结构益处的广泛评估。

结果

这是第一个弥补这一不足的研究。我们通过模拟实验检查了个体二级结构的系统发育学准确性和稳健性，模拟实验的人工树拓扑结构最多有 18 个分类群，分歧程度在典型的系统发育研究范围内。我们选择核糖体基因内转录间隔区 2 作为示例标记区域。模拟将序列与二级结构的共进化过程整合在一起。此外，还研究并比较了标记大小复制的系统发育能力与序列和序列-结构重建方法。结果清楚地表明，与仅序列数据相比，二级结构信息极大地提高了邻接法树的准确性和稳健性，而标记大小加倍仅能提高稳健性。

结论

核糖体 RNA 序列的个体二级结构提供了有价值的信息量增益，对系统发育学有用。因此，建议使用 ITS2 序列和二级结构进行分类推断。其他重建方法，如最大似然法、贝叶斯推断或最大简约法，同样可以从二级结构的包含中受益。

评论者

本文由 Shamil Sunyaev、Andrea Tanzer（由 Frank Eisenhaber 提名）和 Eugene V. Koonin 进行了评审。

同行评议

由 Shamil Sunyaev、Andrea Tanzer（由 Frank Eisenhaber 提名）和 Eugene V. Koonin 进行了评审。欲查看完整的评审，请前往评审意见部分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ebba/2821295/e18c358d0498/1745-6150-5-4-1.jpg

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包括 RNA 二级结构可提高系统发育树重建的准确性和稳健性。

Including RNA secondary structures improves accuracy and robustness in reconstruction of phylogenetic trees.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

REVIEWERS

OPEN PEER REVIEW

背景

结果

结论

评论者

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