选择差分剪接方法：实际考虑因素

arXiv - QuanBio - Genomics Pub Date : 2024-09-09 DOI:arxiv-2409.05458

Ben J Draper, Mark J Dunning, David C James

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引用次数: 0

摘要

另类剪接在基因调控中至关重要，对临床和生物技术具有重要影响。这篇综述文章汇集了用于研究差异剪接的生物信息学 RNA-seq 工具，对这些工具的统计方法、案例应用和优势进行了详细分析。共有 22 种工具按其统计系列（参数、非参数和概率）和分析水平（转录本、外显子和事件）进行了分类。量化替代剪接的核心挑战包括正确的剪接位点识别和准确的转录本异构解旋。标杆研究表明，目前还没有就工具性能达成共识，不同情况下的差异相当大。建议未来的研究人员使用引用频率高、开发人员持续维护的工具，如 DEXSeq 和 rMATS。为了帮助选择工具，我们根据数据输入和所需分析水平的变化提出了一个指导示意图。此外，长读程 RNA 测序的进步有望推动差异剪接工具的发展，从而减少对同工酶解的需求，并促进进一步的创新。

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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Selecting Differential Splicing Methods: Practical Considerations

Alternative splicing is crucial in gene regulation, with significant implications in clinical settings and biotechnology. This review article compiles bioinformatics RNA-seq tools for investigating differential splicing; offering a detailed examination of their statistical methods, case applications, and benefits. A total of 22 tools are categorised by their statistical family (parametric, non-parametric, and probabilistic) and level of analysis (transcript, exon, and event). The central challenges in quantifying alternative splicing include correct splice site identification and accurate isoform deconvolution of transcripts. Benchmarking studies show no consensus on tool performance, revealing considerable variability across different scenarios. Tools with high citation frequency and continued developer maintenance, such as DEXSeq and rMATS, are recommended for prospective researchers. To aid in tool selection, a guide schematic is proposed based on variations in data input and the required level of analysis. Additionally, advancements in long-read RNA sequencing are expected to drive the evolution of differential splicing tools, reducing the need for isoform deconvolution and prompting further innovation.

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arXiv - QuanBio - Genomics

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