AN AUGMENTED KELLER-SEGEL MODEL FOR E. COLI CHEMOTAXIS IN FAST-VARYING ENVIRONMENTS

Li Tong; Tang Min; Yang Xu

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AN AUGMENTED KELLER-SEGEL MODEL FOR E. COLI CHEMOTAXIS IN FAST-VARYING ENVIRONMENTS

机译：快速变化环境中大肠杆菌的增强凯勒-赛格尔模型

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This is a continuous study on E. coli chemotaxis under the framework of pathway-based mean-field theory (PBMFT) proposed in [G. Si, M. Tang, and X. Yang, 12, 907-926, 2014], following the physical studies in [G. Si, T. Wu, Q. Quyang, and Y. Tu, 109, 048101, 2012]. In this paper, we derive an augmented Keller-Segel system with macroscopic intercellular signaling pathway dynamics. It can explain the experimental observation of phase-shift between the maxima of ligand concentration and density of E. coli in fast-varying environments at the population level. This is a necessary complement to the original PBMFT where the phase-shift can only be modeled by moment systems. Formal analysis are given for the system in the cases of fast and slow adaption rates. Numerical simulations show the quantitative agreement of the augmented Keller-Segel model with the individual-based E. coli chemotaxis simulator.

机译：这是在[G. [Si，M. Tang，and X. Yang，2014，12，907-926]，[G。 Si，T. Wu，Q. Quyang，and Y. Tu，109，048101，2012]。在本文中，我们导出了具有宏观细胞间信号通路动态的增强的Keller-Segel系统。它可以解释在种群水平快速变化的环境中，配体浓度最大值与大肠杆菌密度之间相移的实验观察。这是对原始PBMFT的必要补充，在原始PBMFT中，相移只能通过力矩系统建模。给出了系统在快速和慢速适应率情况下的形式化分析。数值模拟表明增强的Keller-Segel模型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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《Communications in mathematical sciences》 |2016年第3期|共9页
作者
Li Tong; Tang Min; Yang Xu;
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正文语种 eng
中图分类数学;
关键词
Chemotaxis; Keller-Segel equation; pathway-based mean field model; fast-varying environments;

机译：化学趋化;Keller-Segel方程;基于路径的平均场模型;快速变化的环境;

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专利

1. AN AUGMENTED KELLER-SEGEL MODEL FOR E. COLI CHEMOTAXIS IN FAST-VARYING ENVIRONMENTS [J] . Li Tong, Tang Min, Yang Xu Communications in mathematical sciences . 2016,第3期

机译：快速变化环境中大肠杆菌的增强凯勒-赛格尔模型
2. 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
3. A multi-scale model of Escherichia coli chemotaxis from intracellular signaling pathway to motility and nutrient uptake in nutrient gradient and isotropic fluid environments [J] . Xu Feifei, Bierman Robert, Healy Frank, Computers & mathematics with applications . 2016,第11期

机译：在营养梯度和各向同性流体环境中，大肠埃希菌从细胞内信号通路到运动性和养分吸收的多尺度模型
4. Localization of chemical sources using E. Coli chemotaxis [C] . Timothy Davison, Hoa Nguyen, Kevin Nickels, . 2016

机译：使用大肠杆菌趋化性对化学源进行定位
5. Examination of E. coli O157 and Salmonella presence and indicator organism levels within an organic farming environment and evaluation of environmental E. coli O157:H7 stress response to starvation and heat. [D] . Adhikari, Achyut. 2012

机译：在有机耕作环境中检查大肠杆菌O157和沙门氏菌的存在以及指示生物水平，并评估环境大肠杆菌O157：H7对饥饿和热的应激反应。
6. Modeling E. coli Tumbles by Rotational Diffusion. Implications for Chemotaxis [O] . Jonathan Saragosti, Pascal Silberzan, Axel Buguin 2009

机译：通过旋转扩散模拟大肠杆菌滚落。对趋化性的影响
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
8. Colonization Potentials of Male and Female E. coli K 12 Strains E coli B and Human Fecal E. coli Strains in the Mouse GI Tract [R] . Cohen, P. S. , Pilsucki, R. W. , Myhal, M. L. , 1980

机译：小鼠胃肠道中雄性和雌性大肠杆菌K12菌株大肠杆菌B和人类粪便大肠杆菌菌株的定殖潜力

AN AUGMENTED KELLER-SEGEL MODEL FOR E. COLI CHEMOTAXIS IN FAST-VARYING ENVIRONMENTS

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