A Bayesian Change Point Model for Dynamic Alternative Transcription Start Site Usage During Cellular Differentiation.

IF 1.4 4区 生物学 Q4 BIOCHEMICAL RESEARCH METHODS
Journal of Computational Biology Pub Date : 2024-05-01 Epub Date: 2024-05-14 DOI:10.1089/cmb.2023.0174
Juan Xia, Yuxia Li, Haotian Zhu, Feiyang Xue, Feng Shi, Nana Li
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引用次数: 0

Abstract

ABSTRACT An alternative transcription start site (ATSS) is a major driving force for increasing the complexity of transcripts in human tissues. As a transcriptional regulatory mechanism, ATSS has biological significance. Many studies have confirmed that ATSS plays an important role in diseases and cell development and differentiation. However, exploration of its dynamic mechanisms remains insufficient. Identifying ATSS change points during cell differentiation is critical for elucidating potential dynamic mechanisms. For relative ATSS usage as percentage data, the existing methods lack sensitivity to detect the change point for ATSS longitudinal data. In addition, some methods have strict requirements for data distribution and cannot be applied to deal with this problem. In this study, the Bayesian change point detection model was first constructed using reparameterization techniques for two parameters of a beta distribution for the percentage data type, and the posterior distributions of parameters and change points were obtained using Markov Chain Monte Carlo (MCMC) sampling. With comprehensive simulation studies, the performance of the Bayesian change point detection model is found to be consistently powerful and robust across most scenarios with different sample sizes and beta distributions. Second, differential ATSS events in the real data, whose change points were identified using our method, were clustered according to their change points. Last, for each change point, pathway and transcription factor motif analyses were performed on its differential ATSS events. The results of our analyses demonstrated the effectiveness of the Bayesian change point detection model and provided biological insights into cell differentiation.

细胞分化过程中动态替代转录起始位点使用的贝叶斯变化点模型
摘要 替代转录起始位点(ATSS)是增加人体组织中转录本复杂性的主要驱动力。作为一种转录调控机制,ATSS 具有重要的生物学意义。许多研究证实,ATSS 在疾病、细胞发育和分化中发挥着重要作用。然而,对其动态机制的探索仍然不足。确定细胞分化过程中 ATSS 的变化点对于阐明潜在的动态机制至关重要。对于 ATSS 的相对使用百分比数据,现有方法缺乏灵敏度,无法检测 ATSS 纵向数据的变化点。此外,一些方法对数据分布有严格要求,无法应用于解决这一问题。本研究首先针对百分比数据类型的贝塔分布的两个参数,利用重参数化技术构建了贝叶斯变化点检测模型,并利用马尔可夫链蒙特卡罗(MCMC)采样方法得到了参数和变化点的后验分布。通过全面的模拟研究发现,贝叶斯变化点检测模型的性能在不同样本量和贝塔分布的大多数情况下始终保持强大和稳健。其次,根据变化点对真实数据中的差异 ATSS 事件进行聚类,并使用我们的方法确定其变化点。最后,针对每个变化点,对其差异 ATSS 事件进行通路和转录因子主题分析。我们的分析结果证明了贝叶斯变化点检测模型的有效性,并为细胞分化提供了生物学启示。
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来源期刊
Journal of Computational Biology
Journal of Computational Biology 生物-计算机:跨学科应用
CiteScore
3.60
自引率
5.90%
发文量
113
审稿时长
6-12 weeks
期刊介绍: Journal of Computational Biology is the leading peer-reviewed journal in computational biology and bioinformatics, publishing in-depth statistical, mathematical, and computational analysis of methods, as well as their practical impact. Available only online, this is an essential journal for scientists and students who want to keep abreast of developments in bioinformatics. Journal of Computational Biology coverage includes: -Genomics -Mathematical modeling and simulation -Distributed and parallel biological computing -Designing biological databases -Pattern matching and pattern detection -Linking disparate databases and data -New tools for computational biology -Relational and object-oriented database technology for bioinformatics -Biological expert system design and use -Reasoning by analogy, hypothesis formation, and testing by machine -Management of biological databases
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