Asymptotic Strength Limit of Hydrogen Bond Assemblies in Proteins at Vanishing Pulling Rates

机译：消失拉速下蛋白质氢键组件的渐近强度极限

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Experimental and computational studies on mechanical unfolding of proteins suggest that rupture forces approach a limiting value of a few hundred pN at vanishing pulling velocities. We develop a fracture mechanics based theoretical framework that considers the free energy competition between entropic elasticity of polypeptide chains and rupture of peptide hydrogen bonds, which we use here to provide an explanation for the intrinsic strength limit of proteins. Our analysis predicts that individual protein domains stabilized by hydrogen bonds can not exhibit rupture forces larger than ≈ 200 pN, regardless of the presence of a large number of hydrogen bonds. This result explains a wide range of experimental and computational observations.

机译：蛋白质力学展开的实验和计算研究表明，破裂力在消失拉速度下接近几百PN的限制值。我们开发了一种基于骨折的理论框架，其考虑了多肽链熵弹性之间的自由能竞争和肽氢键破裂，我们在此处提供了蛋白质内在强度极限的解释。我们的分析预测，氢键稳定的单个蛋白质结构域不能表现出大于≈200μm的破裂力，而不管大量氢键的存在。该结果解释了各种实验和计算观察。

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《Society for Experimental Mechanics XI International Congress and Exposition on Experimental and Applied Mechanics》|2004年||共6页
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Sinan Keten; Markus J. Buehler;
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1. Comment on 'Asymptotic Strength Limit of Hydrogen-Bond Assemblies in Proteins at Vanishing Pulling Rates' [J] . Dmitrii E. Makarov Physical review letters . 2009,第12期

机译：关于“拉力消失的蛋白质中氢键组装体的渐进强度极限”的评论
2. Asymptotic Strength Limit of Hydrogen-Bond Assemblies in Proteins at Vanishing Pulling Rates [J] . Sinan Keten, Markus J. Buehler Physical review letters . 2008,第19期

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3. Crystal structure of a hydrated N-glycoprotein linkage region model and its analogue: Hydrogen bonding and pi-pi stacking driven molecular assembly [J] . Sriram D., Loganathan D., Srinivasan S., Carbohydrate research . 1998,第3期

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4. Asymptotic Strength Limit of Hydrogen Bond Assemblies in Proteins at Vanishing Pulling Rates [C] . Sinan Keten, Markus J. Buehler MRS fall meeting . 2008

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5. On the Verge: Mechanics in the Limit of Vanishing Strength and Stiffness [D] . van Doorn, Jan Maarten. 2019

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6. The Nature of Hydrogen Bonds: A Delineation of the Role of Different Energy Components on Hydrogen Bond Strengths and Lengths [O] . Stephanie C. C. van der Lubbe, Prof. Dr. Célia Fonseca Guerra -1

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8. Variation in Strength of an Unconventional CH...O Hydrogen Bond in an Engineered Protein Cavity [R] . Musah, R. A. , Jensen, G. M. , Rosenfeld, R. J. , 1998

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Asymptotic Strength Limit of Hydrogen Bond Assemblies in Proteins at Vanishing Pulling Rates

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