取决于基因组分辨率的断点重复使用的兴衰。

The rise and fall of breakpoint reuse depending on genome resolution.

机构信息

Department of Infectious Diseases, Mount Sinai School of Medicine, NY, NY 10029, USA.

出版信息

BMC Bioinformatics. 2011 Oct 5;12 Suppl 9(Suppl 9):S1. doi: 10.1186/1471-2105-12-S9-S1.

DOI:10.1186/1471-2105-12-S9-S1

PMID:22151330

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3283316/

Abstract

BACKGROUND

During evolution, large-scale genome rearrangements of chromosomes shuffle the order of homologous genome sequences ("synteny blocks") across species. Some years ago, a controversy erupted in genome rearrangement studies over whether rearrangements recur, causing breakpoints to be reused.

METHODS

We investigate this controversial issue using the synteny block's for human-mouse-rat reported by Bourque et al. and a series of synteny blocks we generated using Mauve at resolutions ranging from coarse to very fine-scale. We conducted analyses to test how resolution affects the traditional measure of the breakpoint reuse rate.

RESULTS

We found that the inversion-based breakpoint reuse rate is low at fine-scale synteny block resolution and that it rises and eventually falls as synteny block resolution decreases. By analyzing the cycle structure of the breakpoint graph of human-mouse-rat synteny blocks for human-mouse and comparing with theoretically derived distributions for random genome rearrangements, we showed that the implied genome rearrangements at each level of resolution become more "random" as synteny block resolution diminishes. At highest synteny block resolutions the Hannenhalli-Pevzner inversion distance deviates from the Double Cut and Join distance, possibly due to small-scale transpositions or simply due to inclusion of erroneous synteny blocks. At synteny block resolutions as coarse as the Bourque et al. blocks, we show the breakpoint graph cycle structure has already converged to the pattern expected for a random distribution of synteny blocks.

CONCLUSIONS

The inferred breakpoint reuse rate depends on synteny block resolution in human-mouse genome comparisons. At fine-scale resolution, the cycle structure for the transformation appears less random compared to that for coarse resolution. Small synteny blocks may contain critical information for accurate reconstruction of genome rearrangement history and parameters.

摘要

背景

在进化过程中，染色体的大规模基因组重排会在物种之间打乱同源基因组序列（“同线性块”）的顺序。几年前，在基因组重排研究中爆发了一场争议，即重排是否会反复发生，导致断点被重复使用。

方法

我们使用 Bourque 等人报告的人类-鼠-大鼠的同线性块以及我们使用 Mauve 在从粗到非常细的分辨率生成的一系列同线性块来研究这个有争议的问题。我们进行了分析，以测试分辨率如何影响断点重复使用率的传统衡量标准。

结果

我们发现，在精细分辨率的同线性块分辨率下，基于反转的断点重复使用率较低，并且随着同线性块分辨率的降低而上升，最终下降。通过分析人类-鼠-大鼠同线性块的人类-鼠断点图的循环结构，并与随机基因组重排的理论分布进行比较，我们表明，随着同线性块分辨率的降低，每个分辨率水平的隐含基因组重排变得更加“随机”。在最高分辨率的同线性块中，Hannenhalli-Pevzner 反转距离偏离了双切割和连接距离，可能是由于小规模转座或仅仅是由于包含错误的同线性块。在分辨率与 Bourque 等人的块一样粗的情况下，我们表明断点图循环结构已经收敛到随机同线性块分布预期的模式。

结论

推断的断点重复使用率取决于人类-鼠基因组比较中的同线性块分辨率。在精细分辨率下，与粗分辨率相比，转换的循环结构看起来不那么随机。小的同线性块可能包含准确重建基因组重排历史和参数的关键信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a7c9/3283316/5decfc49321f/1471-2105-12-S9-S1-1.jpg

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取决于基因组分辨率的断点重复使用的兴衰。

The rise and fall of breakpoint reuse depending on genome resolution.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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