A reaction network model of microscale liquid-liquid phase separation reveals effects of spatial dimension

Jinyoung Kim, Sean D. Lawley, Jinsu Kim
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Abstract

Proteins can form droplets via liquid-liquid phase separation (LLPS) in cells. Recent experiments demonstrate that LLPS is qualitatively different on two-dimensional (2d) surfaces compared to three-dimensional (3d) solutions. In this paper, we use mathematical modeling to investigate the causes of the discrepancies between LLPS in 2d versus 3d. We model the number of proteins and droplets inducing LLPS by continuous-time Markov chains and use chemical reaction network theory to analyze the model. To reflect the influence of space dimension, droplet formation and dissociation rates are determined using the first hitting times of diffusing proteins. We first show that our stochastic model reproduces the appropriate phase diagram and is consistent with the relevant thermodynamic constraints. After further analyzing the model, we find that it predicts that the space dimension induces qualitatively different features of LLPS which are consistent with recent experiments. While it has been claimed that the differences between 2d and 3d LLPS stems mainly from different diffusion coefficients, our analysis is independent of the diffusion coefficients of the proteins since we use the stationary model behavior. Therefore, our results give new hypotheses about how space dimension affects LLPS.
微尺度液-液相分离反应网络模型揭示空间维度的影响
蛋白质可通过液-液相分离(LLPS)作用形成液滴。最近的实验证明,二维(2d)表面上的 LLPS 与三维(3d)溶液上的 LLPS 有质的不同。在本文中,我们使用数学模型来研究二维与三维 LLPS 之间差异的原因。我们通过连续时间马尔可夫链对诱导 LLPS 的蛋白质和液滴数量进行建模,并利用化学反应网络理论对模型进行分析。为了反映空间维度的影响,液滴的形成和解离速率是通过扩散蛋白质的首次撞击时间来确定的。我们首先证明了我们的随机模型再现了适当的相图,并且与相关的热力学约束相一致。在进一步分析该模型后,我们发现该模型预测空间维度会诱发 LLPS 质量上的不同特征,这与最近的实验是一致的。虽然有人认为 2d 和 3d LLPS 的差异主要源于不同的扩散系数,但我们的分析与蛋白质的扩散系数无关,因为我们使用的是静态模型行为。
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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