A computational framework for modelling multicellular biochemistry

机译：用于模拟多细胞生物化学的计算框架

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摘要

A state-of-the-art problem in Computational Systems Biology is to provide suitable tools to model and predict the behaviour of multicellular systems (tissues, embryos) where biological interactions occur both inside and between cells (or compartments in general). Starting from existing computational models and languages such as stochastic pi-calculus, Petri Nets, mobile ambients, and membrane computing, we developed a new computational framework based on (i) a compositional model for biological compartments, and (ii) an enhanced model of chemical rules addressing also biomechanical actions such as substances diffusion across membranes or compartments splitting. We tested a fragment of the framework using a case study based on spatial pattern formation in embryogenesis, where the interplay between cells' internal dynamics and cell-to-cell interactions has a central role.

机译：计算系统生物学中的一个最新技术问题是提供合适的工具来建模和预测多细胞系统（组织，胚胎）的行为，在多细胞系统中，细胞内部和细胞之间（通常是隔室）之间都会发生生物相互作用。从现有的计算模型和语言（例如随机pi演算，Petri网，移动环境和膜计算）开始，我们基于（i）生物区室的组成模型和（ii）增强的模型模型开发了新的计算框架。涉及生物力学作用的化学规则，例如物质跨膜扩散或隔室分裂。我们使用了一个案例研究来测试框架的一部分，该案例基于胚胎发生中的空间模式形成，其中细胞内部动力学和细胞间相互作用之间的相互作用起着核心作用。

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《IEEE Congress on Evolutionary Computation;CEC '09》|2009年|2233-2240|共8页
会议地点 Trondheim(NO);Trondheim(NO)
作者
Montagna S.; Viroli M.;
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ALMA MATER STUDIORUM-Univ. di Bologna, Cesena;

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Petri nets; biochemistry; biocomputing; biology computing; cellular biophysics; pi calculus; Petri net; biological interaction; cell-to-cell interaction; chemical rules; computational framework; computational languages; computational model; computational systems biology; embryogenesis; membrane computing; mobile ambients; multicellular biochemistry; multicellular systems; spatial pattern formation; stochastic pi-calculus;

机译：Petri网;生物化学;生物计算;生物学计算;细胞生物物理学; pi演算; Petri网;生物相互作用;细胞间相互作用;化学规则;计算框架;计算语言;计算模型;计算系统生物学;胚胎发生;膜计算;移动环境;多细胞生化;多细胞系统;空间格局形成;随机π演算;
入库时间 2022-08-26 13:53:00

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A computational framework for modelling multicellular biochemistry

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