Exploratory Modeling and Simulation of the Evolutionary Dynamics of Single-Stranded RNA Virus Populations

机译：单链RNA病毒种群进化动力学的探索性建模和仿真

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Infection, replication and mutation govern the population dynamics of viruses and are the key mechanisms driving their evolution. In particular, RNA viruses (such as the causative agents of Ebola, Dengue, Zika, West Nile, and SARS) have the highest mutation rates which enable them to form highly diverse populations within a single host, evade immune responses and develop resistances to drugs. Understanding the complexity of virus evolution is crucial for developing reliable countermeasures. We present an exploratory simulation model to study the evolution of heterogeneous virus populations in heterogeneous cell environments. This is a unique model that operates at three scales and captures the core mechanisms of the evolutionary process. To the best of our knowledge, this is the first HPC-based simulation of its kind.

机译：感染，复制和突变控制着病毒的种群动态，是驱动其进化的关键机制。特别是，RNA病毒（例如埃博拉病毒，登革热，寨卡病毒，西尼罗河病毒和SARS的病原体）具有最高的突变率，从而使它们能够在单个宿主内形成高度多样化的种群，逃避免疫反应并发展出对药物的耐药性。了解病毒进化的复杂性对于制定可靠的对策至关重要。我们提出了一个探索性的仿真模型，以研究异质细胞环境中异质病毒种群的演变。这是一个独特的模型，可在三个规模上运行，并捕获了进化过程的核心机制。据我们所知，这是同类中第一个基于HPC的仿真。

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《IEEE International Parallel and Distributed Processing Symposium Workshops》|2017年|263-272|共10页
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Jae-Seung Yeom; Tanya Kostova-Vassilevska; Peter D. Barnes; David R. Jefferson; Tomas Oppelstrup;
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Sociology; Statistics; Schedules; RNA; Biological system modeling; Viruses (medical); Computational modeling;

机译：社会学;统计;计划; RNA;生物系统建模;病毒（医学）;计算建模;

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1. TEMPORARY REMOVAL: DDX3 inhibitors show antiviral activity against positive-sense single-stranded RNA viruses but not against negative-sense single-stranded RNA viruses: The coxsackie B model (vol 178, 104750, 2020) [J] . Quaranta Paola, Lottini Giulia, Chesi Giulia, Antiviral Research . 2020,第1期

机译：临时清除：DDX3抑制剂显示抗病毒活性对抗阳性感测单链RNA病毒，但不是针对负面意义的单链RNA病毒：COXSackie B型（Vol 178,104750,2020）
2. Nuclear Magnetic Resonance of Single-Stranded RNAs and DNAs of CAAU and UCAAUC as Benchmarks for Molecular Dynamics Simulations [J] . Zhao Jianbo, Kennedy Scott D., Berger Kyle D., Journal of chemical theory and computation: JCTC . 2020,第3期

机译：CAAU和UCAAUC单链RNA和DNA的核磁共振，作为分子动力学模拟的基准
3. Nemo-age: Spatially explicit simulations of eco-evolutionary dynamics in stage-structured populations under changing environments [J] . Cotto Olivier, Schmid Max, Guillaume Frederic Methods in Ecology and Evolution . 2020,第10期

机译：Nemo-Age：在不断变化的环境下阶段结构群体的空间上显式模拟生态进化动态
4. Exploratory Modeling and Simulation of the Evolutionary Dynamics of Single-Stranded RNA Virus Populations [C] . Jae-Seung Yeom, Tanya Kostova-Vassilevska, Peter D. Barnes, IEEE International Parallel and Distributed Processing Symposium Workshops . 2017

机译：单链RNA病毒种群进化动态的探索性建模与仿真
5. Modelling the Ecological and Evolutionary Dynamics of Microbiomes within a Population of Hosts [D] . Zeng, Qinglong. 2018

机译：对宿主种群中微生物群落的生态和进化动力学建模
6. Diffusion and Electrophoretic Mobility of Single-Stranded RNA from Molecular Dynamics Simulations [O] . In-Chul Yeh, Gerhard Hummer 2004

机译：从分子动力学模拟的单链RNA的扩散和电泳迁移率。
7. Diffusion and Electrophoretic Mobility of Single-Stranded RNA from Molecular Dynamics Simulations [O] . Yeh, In-Chul, Hummer, Gerhard 2004

机译：从分子动力学模拟的单链RNA的扩散和电泳迁移率。

Exploratory Modeling and Simulation of the Evolutionary Dynamics of Single-Stranded RNA Virus Populations

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