Protein Dynamics: From the Native to the Unfolded State and Back Again

MARTIN KARPLUS; AMEDEO CAFLISCH; ANDREJ SALI; EUGENE SHAKHNOVICH

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Protein Dynamics: From the Native to the Unfolded State and Back Again

机译：蛋白质动力学：从天然状态到未折叠状态再返回

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Simulations to study protein unfolding and folding were performed. The unfolding simulations make use of molecular dynamics and treat an atomic model of barnase in aqueous solvent. The cooperative nature of the unfolding transition and the important role of water are described. The folding simulations are based on a bead model of the protein on a cubic lattice. It is shown for the 27-mer model that a large energy gap between the lowest energy (native) state and the excited states is a necessary and sufficient condition for fast folding.

机译：进行了研究蛋白质解折叠和折叠的模拟。展开模拟利用分子动力学，并处理了水性溶剂中的barnase原子模型。描述了展开过渡的合作性质和水的重要作用。折叠模拟基于立方晶格上蛋白质的珠子模型。对于27聚体模型表明，最低能量（天然）状态和激发态之间的大能隙是快速折叠的必要和充分条件。

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《Molecular Engineering: An Interdisciplinary Journal Devoted to the Design, Characterization, and Application of Molecules and Molecular Materials Endowed with Specific Biological, Chemical, and Physical Properties》 |1995年第3期|共16页
作者
MARTIN KARPLUS; AMEDEO CAFLISCH; ANDREJ SALI; EUGENE SHAKHNOVICH;
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正文语种 eng
中图分类生物大分子的结构和功能;
关键词
Molecular dynamics; barnase denaluration;

机译：分子动力学;barnase脱醛;
入库时间 2022-08-18 11:58:22

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Protein Dynamics: From the Native to the Unfolded State and Back Again

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