Viscoelastic relaxation time and structural evolution during length contraction of spider silk protein nanostructures

被引:0
|
作者
Graham Bratzel
Zhao Qin
Markus J. Buehler
机构
[1] Massachusetts Institute of Technology,Laboratory for Atomistic and Molecular Mechanics, Department of Civil and Environmental Engineering
[2] Massachusetts Institute of Technology,Department of Mechanical Engineering
[3] 77 Massachusetts Avenue,Laboratory for Atomistic and Molecular Mechanics, Department of Civil and Environmental Engineering
[4] Massachusetts Institute of Technology,undefined
来源
MRS Communications | 2013年 / 3卷
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摘要
Spider dragline silk is a self-assembling protein that rivals many engineering fibers in strength, extensibility, and toughness, making it a versatile biocompatible material. Here, atomistic-level structures of wildtype MaSp1 protein from the Nephila clavipes spider dragline silk sequences, obtained using an in silico approach based on replica exchange molecular dynamics and explicit water, are subjected to nanomechanical testing and released preceding failure. We approximate the relaxation time from an exponential decay function, and identify permanent changes in secondary structure. Our work provides fundamental insights into the time-dependent properties of silk and possibly other protein materials.
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页码:185 / 190
页数:5
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