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논문 기본 정보

자료유형
학술저널
저자정보
Choi, Bumjoon (Department of Biomedical Engineering, Yonsei University) Lee, Sang Woo (Department of Biomedical Engineering, Yonsei University) Eom, Kilho (Biomechanics Laboratory, College of Sport Science, Sungkyunkwan University)
저널정보
테크노프레스 Multiscale and multiphysics mechanics Multiscale and multiphysics mechanics 제1권 제1호
발행연도
2016.1
수록면
53 - 64 (12page)

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Amyloid fibrils have recently been considered as an interesting material, since they exhibit the excellent mechanical properties such as elastic modulus in the order of 10 GPa, which is larger than that of other protein materials. Despite recent findings of these excellent mechanical properties for amyloid fibrils, it has not been fully understood how these excellent mechanical properties are achieved. In this work, we have studied the nanomechanical deformation behaviors and properties of amyloid fibrils such as their elastic modulus as well as fracture strength, by using atomistic simulations, particularly steered molecular dynamics simulations. Our simulation results suggest the important role of the length of amyloid fibrils in their mechanical properties such that the fracture force of amyloid fibril is increased when the fibril length decreases. This length scale effect is attributed to the rupture mechanisms of hydrogen bonds that sustain the fibril structure. Moreover, we have investigated the effect of boundary condition on the nanomechanical deformation mechanisms of amyloid fibrils. It is found that the fracture force is critically affected by boundary condition. Our study highlights the crucial role of both fibril length and boundary condition in the nanomechanical properties of amyloid fibrils.

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