Andreas Buttenschön, Shona Sinclair, Leah Edelstein-Keshet
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引用次数: 0
摘要
在胚胎发育过程中,器官和特化组织的形成需要细胞向特定目标迁移。在某些情况下,这些细胞会以强大的集群形式迁移。我们在此探讨 Falcó 等人最近对非局部连续模型的局部近似(SIAM J Appl Math 84:17-42, 2023)。我们应用了他们的理论结果,具体说明了基于生物学的细胞-细胞相互作用,展示了这种细胞交流如何导致有效的吸引-排斥莫尔斯势。然后,我们探讨了聚类的不稳定性、聚类的存在和大小及其稳定性。对于吸引-排斥趋化作用,我们推导出了细胞和化学特性的明确条件,从而保证了稳健聚类的存在。我们还扩展了他们的工作,研究了局部近似相对于完整非局部模型的准确性。
How Cells Stay Together: A Mechanism for Maintenance of a Robust Cluster Explored by Local and Non-local Continuum Models.
Formation of organs and specialized tissues in embryonic development requires migration of cells to specific targets. In some instances, such cells migrate as a robust cluster. We here explore a recent local approximation of non-local continuum models by Falcó et al. (SIAM J Appl Math 84:17-42, 2023). We apply their theoretical results by specifying biologically-based cell-cell interactions, showing how such cell communication results in an effective attraction-repulsion Morse potential. We then explore the clustering instability, the existence and size of the cluster, and its stability. For attractant-repellent chemotaxis, we derive an explicit condition on cell and chemical properties that guarantee the existence of robust clusters. We also extend their work by investigating the accuracy of the local approximation relative to the full non-local model.
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