A PATHWAY-BASED MEAN-FIELD MODEL FOR E. COLI CHEMOTAXIS: MATHEMATICAL DERIVATION AND ITS HYPERBOLIC AND PARABOLIC LIMITS

GUANGWEI SI; MIN TANG; AND XU YANG

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A PATHWAY-BASED MEAN-FIELD MODEL FOR E. COLI CHEMOTAXIS: MATHEMATICAL DERIVATION AND ITS HYPERBOLIC AND PARABOLIC LIMITS

机译：大肠杆菌的基于路径的均值模型：数学推导及其双曲线和抛物线极限

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A pathway-based mean-field theory (PBMFT) that incorporated the most recent quantitatively measured signaling pathway was recently proposed for the E. coli chemotaxis in [G. Si， T. Wu, Q. Quyang, and Y. Tu, Phys. Rev. Lett., 109 (2012), 048101]. In this paper, we formally derive a new kinetic system of PBMFT under the assumption that the methylation level is locally concentrated, whose turning operator takes into account the dynamical intracellular pathway and hence is more physically relevant. We recover the PBMFT proposed by Si et al. as the hyperbolic limit and connect to the Keller-Segel equation as the parabolic limit of this new model. We also present the numerical evidence to show the quantitative agreement of the kinetic system with the individual based E. coli chemotaxis simulator.

机译：最近有人提出了一种基于途径的平均场理论（PBMFT），该理论结合了最新的定量测量的信号传导途径，用于大肠杆菌的趋化性[G. Si，Wu。T.，Q。Quyang，和Y. Tu，Phys。 Rev.Lett。，109（2012），048101]。在本文中，我们在甲基化水平局部集中的前提下正式推导了PBMFT的新动力学系统，其转向算子考虑了动态细胞内途径，因此在物理上更相关。我们恢复了Si等人提出的PBMFT。作为双曲极限，并连接到Keller-Segel方程作为此新模型的抛物极限。我们还提供了数值证据，以显示动力学系统与基于个体的大肠杆菌趋化性模拟器的定量一致性。

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《Multiscale modeling & simulation》 |2014年第2期|共20页
作者
GUANGWEI SI; MIN TANG; AND XU YANG;
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正文语种 eng
中图分类计算机仿真;
关键词
pathway-based mean-field model; E. coli chemotaxis; hyperbolic limit; parabolic limit; Keller-Segel model;

机译：基于路径的均场模型;E.大肠趋化;双曲极限;抛物极限;Keller-Segel模型;

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1. A PATHWAY-BASED MEAN-FIELD MODEL FOR E. COLI CHEMOTAXIS: MATHEMATICAL DERIVATION AND ITS HYPERBOLIC AND PARABOLIC LIMITS [J] . GUANGWEI SI, MIN TANG, AND XU YANG Multiscale modeling & simulation . 2014,第2期

机译：大肠杆菌的基于路径的均值模型：数学推导及其双曲线和抛物线极限
2. Pathway-Based Mean-Field Model for Escherichia coli Chemotaxis [J] . Guangwei Si, Tailin Wu, Qi Ouyang, Physical review letters . 2012,第4期

机译：大肠杆菌趋化性的基于途径的平均场模型
3. Global existence of classical solutionsfor a hyperbolic chemotaxis model and its parabolic limit [J] . Hwang HJ, Kang K, Stevens A Indiana University Mathematics Journal . 2006,第1期

机译：双曲趋化模型及其抛物极限的经典解的整体存在性
4. Nonlinear Stability of Large Amplitude Traveling Waves to Hyperbolic-parabolic System Modeling Chemotaxis [C] . Tong Li, Zhi-An Wang International Conference on Hyperbolic Problems . 2012

机译：大幅度波动对双曲抛抛光系统建模化趋化性的非线性稳定性
5. Information processing by the E. coli chemotaxis network. [D] . Wang, Lin. 2011

机译：大肠杆菌趋化性网络的信息处理。
6. A Pathway-based Mean-field Model for Escherichia coli Chemotaxis [O] . Guangwei Si, Tailin Wu, Qi Ouyang, -1

机译：大肠杆菌趋基于途径的平均场模型
7. Macroscopic Limits of Pathway-Based Kinetic Models for E. coli Chemotaxis in Large Gradient Environments [O] . Weiran Sun, Min Tang 2017

机译：大型梯度环境中大肠杆菌趋化性途径基模型的宏观极限

A PATHWAY-BASED MEAN-FIELD MODEL FOR E. COLI CHEMOTAXIS: MATHEMATICAL DERIVATION AND ITS HYPERBOLIC AND PARABOLIC LIMITS

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