Nanopore Current Events Magnifier (nanoCEM): a novel tool for visualizing current events at modification sites of nanopore sequencing.

IF 4 Q1 GENETICS & HEREDITY NAR Genomics and Bioinformatics Pub Date : 2024-05-20 eCollection Date: 2024-06-01 DOI:10.1093/nargab/lqae052

Zhihao Guo, Ying Ni, Lu Tan, Yanwen Shao, Lianwei Ye, Sheng Chen, Runsheng Li

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Abstract

Nanopore sequencing technologies have enabled the direct detection of base modifications in DNA or RNA molecules. Despite these advancements, the tools for visualizing electrical current, essential for analyzing base modifications, are often lacking in clarity and compatibility with diverse nanopore pipelines. Here, we present Nanopore Current Events Magnifier (nanoCEM, https://github.com/lrslab/nanoCEM), a Python command-line tool designed to facilitate the identification of DNA/RNA modification sites through enhanced visualization and statistical analysis. Compatible with the four preprocessing methods including 'f5c resquiggle', 'f5c eventalign', 'Tombo' and 'move table', nanoCEM is applicable to RNA and DNA analysis across multiple flow cell types. By utilizing rescaling techniques and calculating various statistical features, nanoCEM provides more accurate and comparable visualization of current events, allowing researchers to effectively observe differences between samples and showcase the modified sites.

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纳米孔电流事件放大镜（nanoCEM）：纳米孔测序修饰位点电流事件可视化的新型工具。

纳米孔测序技术能够直接检测 DNA 或 RNA 分子中的碱基修饰。尽管取得了这些进步，但分析碱基修饰所必需的电流可视化工具往往不够清晰，与不同的纳米孔管道也不兼容。在这里，我们介绍纳米孔电流事件放大镜（nanoCEM，https://github.com/lrslab/nanoCEM），它是一种 Python 命令行工具，旨在通过增强的可视化和统计分析来促进 DNA/RNA 修饰位点的鉴定。nanoCEM 兼容四种预处理方法，包括 "f5c resquiggle"、"f5c eventalign"、"Tombo "和 "move table"，适用于多种流式细胞类型的 RNA 和 DNA 分析。通过利用重新缩放技术和计算各种统计特征，nanoCEM 提供了更准确和可比较的当前事件可视化，使研究人员能够有效地观察样本之间的差异并展示修改过的位点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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