Foundations of a Compositional Systems Biology.

ArXiv Pub Date : 2024-11-22
Eran Agmon
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Abstract

Composition is a powerful principle for systems biology, focused on the interfaces, interconnections, and orchestration of distributed processes to enable integrative multiscale simulations. Whereas traditional models focus on the structure or dynamics of specific subsystems in controlled conditions, compositional systems biology aims to connect these models, asking critical questions about the space between models: What variables should a submodel expose through its interface? How do coupled models connect and translate across scales? How do domain-specific models connect across biological and physical disciplines to drive the synthesis of new knowledge? This approach requires robust software to integrate diverse datasets and submodels, providing researchers with tools to flexibly recombine, iteratively refine, and collaboratively expand their models. This article offers a comprehensive framework to support this vision, including: a conceptual and graphical framework to define interfaces and composition patterns; standardized schemas that facilitate modular data and model assembly; biological templates that integrate detailed submodels that connect molecular processes to the emergence of the cellular interface; and user-friendly software interfaces that empower research communities to construct and improve multiscale models of cellular systems. By addressing these needs, compositional systems biology will foster a unified and scalable approach to understanding complex cellular systems.

合成系统生物学的前奏。
组合是系统生物学的一个强大原则,其重点是分布式过程的界面、互连和协调。大多数系统生物学模型侧重于特定子系统在受控条件下的结构或动力学,而组合系统生物学则旨在将这些模型连接成综合的多尺度模拟。这就强调了模型之间的空间--组合视角会问,哪些变量应通过子模型的界面暴露出来?耦合模型如何跨尺度连接和转换?我们如何连接生物和物理研究领域的特定领域模型,以推动新知识的合成?将不同的数据集和子模型集成到统一的多尺度模拟中的软件有哪些要求?研究人员如何才能访问由此产生的集成模型、将其灵活地重新组合为新的形式,并对其进行反复改进?本文对组合系统生物学的关键组成部分进行了高层次的概述,包括1) 概念框架和相应的图形框架,用于表示界面、组合模式和协调模式;2) 标准化的组合模式,为可组合的数据类型和模型提供一致的格式,为可灵活组合的模拟模块注册中心提供强大的基础设施;3) 一套基本的生物模板--细胞和分子界面的模式,可填充详细的子模型和数据集,旨在整合揭示细胞分子萌发的知识;以及 4) 通过用户友好界面促进科学合作,将研究人员与数据集和模型连接起来,使研究人员能够有效地构建细胞系统的多尺度综合模型。
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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