基于嵌入式的 Wnt 信号传递反应网络比较

Bryan S. Hernandez, Patrick Vincent N. Lubenia, Eduardo R. Mendoza
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引用次数: 0

摘要

这项工作引入了一种新方法,通过两个相同或密切相关系统的嵌入式网络,从共有物种集的角度对它们的反应网络进行比较。因此,我们称这种方法为共同物种嵌入网络(CSEN)分析。利用这种方法,我们对已发现的与 Wnt 信号模型(Lee、Schmitz、MacLean 和 Feinberg)相关的现有反应网络进行了比较。对这些 Wnt 模型的分析得出了三个重要结果。首先,对 Lee 模型(单稳态)和 Feinberg 模型(多稳态)的 CSEN 分析显示出很强的相似性,这证明了对 Feinberg 模型的研究是正确的。Italso 质疑了单稳态与多稳态模型区分的绝对性,这是 Macleanet 等人的主要成果(PNAS USA,2015 年)。其次,CSEN 分析提供了支持 Schmitz 模型和 MacLean 模型之间高度相似性的证据,正如我们发现的 "近似等价性 "所表明的那样。第三,分析进一步证明了费恩伯格模型和麦克莱恩模型之间不存在可比关系,凸显了两者之间的显著差异。因此,我们的方法可以成为比较相同或密切相关系统数学模型的有用工具。
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Embedding-based comparison of reaction networks of Wnt signaling
This work introduces a new method for comparing two reaction networks of the same or closely related systems through their embedded networks in terms of the shared set of species. Hence, we call this method the Common Species Embedded Networks (CSEN) analysis. Using this approach, we conduct a comparison of existing reaction networks associated with Wnt signaling models (Lee, Schmitz, MacLean, and Feinberg) that we have identified. The analysis yields three important results for these Wnt models. First, the CSEN analysis of the Lee (mono-stationary) and Feinberg (multi-stationary) shows a strong similarity, justifying the study of the Feinberg model, which was a modified Lee model constructed to study an important network property called "concordance". It also challenge the absoluteness of discrimination of the models into mono-stationarity versus multi-stationarity, which is a main result of Maclean et al. (PNAS USA 2015). Second, the CSEN analysis provides evidence supporting a strong similarity between the Schmitz and MacLean models, as indicated by the "proximate equivalence" that we have identified. Third, the analysis underscores the absence of a comparable relationship between the Feinberg and MacLean models, highlighting distinctive differences between the two. Thus, our approach could be a useful tool to compare mathematical models of the same or closely related systems.
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