Cell populations simulated in silico within SimulCell accurately reproduce the behaviour of experimental cell cultures.

IF 3.5 2区生物学 Q1 MATHEMATICAL & COMPUTATIONAL BIOLOGY

NPJ Systems Biology and Applications Pub Date : 2025-05-17 DOI:10.1038/s41540-025-00518-w

Elvira Toscano, Elena Cimmino, Angelo Boccia, Leandra Sepe, Giovanni Paolella

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引用次数: 0

Abstract

In silico simulations are used to understand cell behaviour by means of different approaches and tools, which range from reproducing average population trends to building lattice-based models to, more recently, creating populations of individual cell agents whose mass, volume and morphology behave according to more or less precise rules and models. In this work, a new agent-based simulator, SimulCell, was conceived, developed and used to predict the behaviour of eukaryotic cell cultures while growing attached to a flat surface. The system, starting from time-lapse microscopy experiments, uses growth, proliferation and migration models to create synthetic populations closely resembling original cultures. Support for cell-cell and cell-environment interaction makes cell agents able to react to changes in medium composition and other events, such as physical damage or chemical modifications occurring in the culture plate. The simulator is accessible through a web application and generates data that can be shown as tables and graphs or exported for further analyses.

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在SimulCell内用硅模拟的细胞群准确地再现了实验细胞培养的行为。

计算机模拟用于通过不同的方法和工具来理解细胞行为，其范围从复制平均种群趋势到构建基于网格的模型，到最近创建单个细胞因子的种群，其质量，体积和形态的行为或多或少符合精确的规则和模型。在这项工作中，一种新的基于agent的模拟器SimulCell被设想、开发并用于预测真核细胞培养物附着在平面上生长时的行为。该系统从延时显微镜实验开始，使用生长、增殖和迁移模型来创建与原始培养物非常相似的合成种群。支持细胞-细胞和细胞-环境相互作用，使细胞制剂能够对培养基成分的变化和其他事件作出反应，例如培养皿中发生的物理损伤或化学修饰。模拟器可以通过web应用程序访问，并生成数据，这些数据可以显示为表格和图形，也可以导出以供进一步分析。

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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来源期刊

NPJ Systems Biology and Applications Mathematics-Applied Mathematics

CiteScore

5.80

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： npj Systems Biology and Applications is an online Open Access journal dedicated to publishing the premier research that takes a systems-oriented approach. The journal aims to provide a forum for the presentation of articles that help define this nascent field, as well as those that apply the advances to wider fields. We encourage studies that integrate, or aid the integration of, data, analyses and insight from molecules to organisms and broader systems. Important areas of interest include not only fundamental biological systems and drug discovery, but also applications to health, medical practice and implementation, big data, biotechnology, food science, human behaviour, broader biological systems and industrial applications of systems biology. We encourage all approaches, including network biology, application of control theory to biological systems, computational modelling and analysis, comprehensive and/or high-content measurements, theoretical, analytical and computational studies of system-level properties of biological systems and computational/software/data platforms enabling such studies.