基于 de Bruijn 图检测高通量测序数据中的环状 RNA

Detecting circular RNA from high-throughput sequence data with de Bruijn graph.

机构信息

Department of Computer Science and Engineering, University of Connecticut, Storrs, 06269, CT, USA.

出版信息

BMC Genomics. 2020 Mar 5;21(Suppl 1):749. doi: 10.1186/s12864-019-6154-7.

DOI:10.1186/s12864-019-6154-7

PMID:32138643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7057571/

Abstract

BACKGROUND

Circular RNA is a type of non-coding RNA, which has a circular structure. Many circular RNAs are stable and contain exons, but are not translated into proteins. Circular RNA has important functions in gene regulation and plays an important role in some human diseases. Several biological methods, such as RNase R treatment, have been developed to identify circular RNA. Multiple bioinformatics tools have also been developed for circular RNA detection with high-throughput sequence data.

RESULTS

In this paper, we present circDBG, a new method for circular RNA detection with de Bruijn graph. We conduct various experiments to evaluate the performance of CircDBG based on both simulated and real data. Our results show that CircDBG finds more reliable circRNA with low bias, has more efficiency in running time, and performs better in balancing accuracy and sensitivity than existing methods. As a byproduct, we also introduce a new method to classify circular RNAs based on reads alignment. Finally, we report a potential chimeric circular RNA that is found by CircDBG based on real sequence data. CircDBG can be downloaded from https://github.com/lxwgcool/CircDBG.

CONCLUSIONS

We develop a new method called CircDBG for circular RNA detection, which is based on de Bruijn graph. We conduct extensive experiments and demonstrate CircDBG outperforms existing tools, especially in saving running time, reducing bias and improving capability of balancing accuracy and sensitivity. We also introduce a new method to classify circular RNAs and report a potential case of chimeric circular RNA.

摘要

背景

环状 RNA 是一种非编码 RNA，具有环状结构。许多环状 RNA 稳定且包含外显子，但不翻译成蛋白质。环状 RNA 在基因调控中具有重要功能，在一些人类疾病中发挥着重要作用。已经开发了几种生物学方法，如 RNase R 处理，来鉴定环状 RNA。还开发了多个生物信息学工具，用于使用高通量测序数据检测环状 RNA。

结果

在本文中，我们提出了一种使用 de Bruijn 图检测环状 RNA 的新方法 CircDBG。我们基于模拟和真实数据进行了各种实验来评估 CircDBG 的性能。我们的结果表明，CircDBG 找到了更可靠的环状 RNA，具有更低的偏差，运行时间更有效，在平衡准确性和敏感性方面表现优于现有方法。作为副产品，我们还介绍了一种基于读取比对分类环状 RNA 的新方法。最后，我们根据真实序列数据报告了 CircDBG 发现的潜在嵌合环状 RNA。CircDBG 可从 https://github.com/lxwgcool/CircDBG 下载。

结论

我们开发了一种名为 CircDBG 的新方法，用于环状 RNA 检测，该方法基于 de Bruijn 图。我们进行了广泛的实验，并证明 CircDBG 优于现有工具，尤其是在节省运行时间、降低偏差和提高准确性和敏感性平衡能力方面。我们还介绍了一种分类环状 RNA 的新方法，并报告了一个潜在的嵌合环状 RNA 案例。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8cda/7057571/9883ccf8e321/12864_2019_6154_Fig1_HTML.jpg

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基于 de Bruijn 图检测高通量测序数据中的环状 RNA

Detecting circular RNA from high-throughput sequence data with de Bruijn graph.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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