Computational study on ice growth inhibition of Antarctic bacterium antifreeze protein using coarse grained simulation

Hung Nguyen; Ly Le; Ho Tu Bao

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Computational study on ice growth inhibition of Antarctic bacterium antifreeze protein using coarse grained simulation

机译：粗粒模拟对南极细菌抗冻蛋白抑冰作用的计算研究

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Antarctic bacterium antifreeze proteins (AFPs) protect and support the survival of cold-adapted organisms by binding and inhibiting the growth of ice crystals. The mechanism of the anti-freezing process in a water environment at low temperature of Antarctic bacterium AFPs remains unclear. In this research, we study the effects of Antarctic bacterium AFPs by coarse grained simulations solution at a temperature range from 262 to 273 K. The results indicated that Antarctic bacterium AFPs were fully active in temperatures greater than 265 K. Additionally, the specific temperature ranges at which the water molecules become completely frozen, partially frozen, and not frozen were identified. (C) 2014 AIP Publishing LLC.

机译：南极细菌的防冻蛋白（AFP）通过结合和抑制冰晶的生长来保护和支持适应寒冷的生物的生存。在南极细菌AFP的低温水环境中的防冻过程机理尚不清楚。在本研究中，我们通过粗糙颗粒模拟溶液在262至273 K的温度范围内研究了南极细菌AFP的作用。结果表明，南极细菌AFP在高于265 K的温度下具有完全活性。此外，特定温度范围鉴别出水分子完全冻结，部分冻结和未冻结。（C）2014 AIP Publishing LLC。

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《The Journal of Chemical Physics 》 |2014年第1期| 共8页
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Hung Nguyen; Ly Le; Ho Tu Bao;
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1. Computational study on ice growth inhibition of Antarctic bacterium antifreeze protein using coarse grained simulation [J] . Hung Nguyen, Ly Le, Tu Bao Ho The Journal of Chemical Physics . 2014 ,第22期

机译：粗粒模拟对南极细菌抗冻蛋白抑冰作用的计算研究
2. Computational study on ice growth inhibition of Antarctic bacterium antifreeze protein using coarse grained simulation [J] . Hung Nguyen, Ly Le, Ho Tu Bao The Journal of Chemical Physics . 2014 ,第22aPta1期

机译：粗粒模拟对南极细菌抗冻蛋白抑冰作用的计算研究
3. Computational study on ice growth inhibition of Antarctic bacterium antifreeze protein using coarse grained simulation [J] . Hung Nguyen, Ly Le, Ho Tu Bao The Journal of Chemical Physics . 2014 ,第22aPta1期

机译：粗粒模拟对南极细菌抗冻蛋白抑冰作用的计算研究
4. Structural Investigation of Supercooled Water Confined in Antifreeze Proteins: Models' Performance Evaluation between Coarse Grained and Atomistic Simulation Models [C] . Nghiep H.V., Hung P.N., Ly L. International conference on image analysis and processing . 2013

机译：含抗冻蛋白的过冷水的结构研究：粗粒和原子模拟模型之间模型的性能评估
5. Ice growth inhibition by antifreeze proteins. [D] . Chapsky, Lars. 1997

机译：通过防冻蛋白抑制冰的生长。
6. Towards temperature-dependent coarse-grained potentials of side-chain interactions for protein folding simulations. I: Molecular dynamics study of a pair of methane molecules in water at various temperatures [O] . Emil Sobolewski, Mariusz Makowski, Stanisław Ołdziej, -1

机译：迈向蛋白质折叠模拟的侧链相互作用的温度依赖性粗粒电势。 I：在不同温度下水中一对甲烷分子的分子动力学研究
7. Antifreeze proteins: computer simulation studies on the mechanism of ice growth inhibition [O] . Hiroki Nada, Yoshinori Furukawa 2012

机译：防冻蛋白：计算机仿真研究冰增长抑制机制
8. Coarse-Grained Lattice Model Simulations of Sequence-Structure Fitness of a Ribosome-Inactivating Protein. [R] . Olson, M. A., Yeh, I., Lee, M. S. 2007

机译：核糖体失活蛋白序列结构适合度的粗粒度格模拟。

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Computational study on ice growth inhibition of Antarctic bacterium antifreeze protein using coarse grained simulation

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