底物异质性和拓扑结构对上皮组织生长动力学的影响

Mahmood Mazarei, Jan Åström, Jan Westerholm, Mikko Karttunen
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摘要

组织生长动力学和界面动力学取决于组织环境和细胞-细胞相互作用的性质。在细胞环境中,基质的异质性和几何形状由多种因素引起,如细胞外基质的结构和营养浓度。我们使用细胞分裂动力学模拟器CellSim3D模型来研究上皮组织在具有不同拓扑结构的异质基质上生长的动力学和界面粗糙度动力学。结果表明,在运动界面区,淬火无序的存在对界面的菌落形态和粗糙度结垢有明显的影响。在淬火无序介质中,组织界面具有较小的界面粗糙度指数$\ensuremath{\alpha}$和较大的生长指数$\ensuremath{\beta}$。缩放指数也依赖于衬底的拓扑结构,不能用众所周知的通用性类来分类。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of substrate heterogeneity and topology on epithelial tissue growth dynamics
Tissue growth kinetics and interface dynamics depend on the properties of the tissue environment and cell-cell interactions. In cellular environments, substrate heterogeneity and geometry arise from a variety factors, such as the structure of the extracellular matrix and nutrient concentration. We used the CellSim3D model, a kinetic cell division simulator, to investigate the growth kinetics and interface roughness dynamics of epithelial tissue growth on heterogeneous substrates with varying topologies. The results show that the presence of quenched disorder has a clear effect on the colony morphology and the roughness scaling of the interface in the moving interface regime. In a medium with quenched disorder, the tissue interface has a smaller interface roughness exponent, $\ensuremath{\alpha}$, and a larger growth exponent, $\ensuremath{\beta}$. The scaling exponents also depend on the topology of the substrate and cannot be categorized by well-known universality classes.
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