Elastic modulus of suspended purple membrane measured by atomic force microscopy

Ari M. Siitonen; Koji Sumitomo; Chandra S. Ramanujan; Youichi Shinozaki; Nahoko Kasai; Kazuaki Furukawa; John F. Ryan; Keiichi Torimitsu

doi:10.1016/j.apsusc.2008.03.009

Elastic modulus of suspended purple membrane measured by atomic force microscopy

Ari M. Siitonen, Koji Sumitomo, Chandra S. Ramanujan, Youichi Shinozaki, Nahoko Kasai, Kazuaki Furukawa, John F. Ryan, Keiichi Torimitsu

研究成果: Article › 査読

9 被引用数 (Scopus)

抄録

We have probed the mechanical properties of purple membrane (PM) in a physiological environment using the atomic force microscope (AFM). By suspending PM over nano-trenches, the elastic properties of PM can be evaluated free from the interaction with the substrate. Force-displacement curves were obtained on the suspended membrane and the data was compared to that of a simple model of a thin film over a trench. By fitting the data to the model, the elastic modulus of PM was estimated to be 8 MPa. When the membrane is repeatedly indented, we observed a change in the force-distance data consistent with damage to the two-dimensional crystal of PM. In this paper we demonstrate that the AFM allows us to evaluate the mechanics of biological membranes in their native conditions.

本文言語	English
ページ（範囲）	7877-7880
ページ数	4
ジャーナル	Applied Surface Science
巻	254
号	23
DOI	https://doi.org/10.1016/j.apsusc.2008.03.009
出版ステータス	Published - 2008 9月 30
外部発表	はい

ASJC Scopus subject areas

化学 (全般)
凝縮系物理学
物理学および天文学（全般）
表面および界面
表面、皮膜および薄膜

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10.1016/j.apsusc.2008.03.009

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引用スタイル

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title = "Elastic modulus of suspended purple membrane measured by atomic force microscopy",

abstract = "We have probed the mechanical properties of purple membrane (PM) in a physiological environment using the atomic force microscope (AFM). By suspending PM over nano-trenches, the elastic properties of PM can be evaluated free from the interaction with the substrate. Force-displacement curves were obtained on the suspended membrane and the data was compared to that of a simple model of a thin film over a trench. By fitting the data to the model, the elastic modulus of PM was estimated to be 8 MPa. When the membrane is repeatedly indented, we observed a change in the force-distance data consistent with damage to the two-dimensional crystal of PM. In this paper we demonstrate that the AFM allows us to evaluate the mechanics of biological membranes in their native conditions.",

keywords = "Elastic modulus, Membrane protein, Nanobiotechnology, Scanning probe microscopy",

author = "Siitonen, {Ari M.} and Koji Sumitomo and Ramanujan, {Chandra S.} and Youichi Shinozaki and Nahoko Kasai and Kazuaki Furukawa and Ryan, {John F.} and Keiichi Torimitsu",

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AU - Siitonen, Ari M.

AU - Sumitomo, Koji

AU - Ramanujan, Chandra S.

AU - Shinozaki, Youichi

AU - Kasai, Nahoko

AU - Furukawa, Kazuaki

AU - Ryan, John F.

AU - Torimitsu, Keiichi

PY - 2008/9/30

Y1 - 2008/9/30

N2 - We have probed the mechanical properties of purple membrane (PM) in a physiological environment using the atomic force microscope (AFM). By suspending PM over nano-trenches, the elastic properties of PM can be evaluated free from the interaction with the substrate. Force-displacement curves were obtained on the suspended membrane and the data was compared to that of a simple model of a thin film over a trench. By fitting the data to the model, the elastic modulus of PM was estimated to be 8 MPa. When the membrane is repeatedly indented, we observed a change in the force-distance data consistent with damage to the two-dimensional crystal of PM. In this paper we demonstrate that the AFM allows us to evaluate the mechanics of biological membranes in their native conditions.

AB - We have probed the mechanical properties of purple membrane (PM) in a physiological environment using the atomic force microscope (AFM). By suspending PM over nano-trenches, the elastic properties of PM can be evaluated free from the interaction with the substrate. Force-displacement curves were obtained on the suspended membrane and the data was compared to that of a simple model of a thin film over a trench. By fitting the data to the model, the elastic modulus of PM was estimated to be 8 MPa. When the membrane is repeatedly indented, we observed a change in the force-distance data consistent with damage to the two-dimensional crystal of PM. In this paper we demonstrate that the AFM allows us to evaluate the mechanics of biological membranes in their native conditions.

KW - Elastic modulus

KW - Membrane protein

KW - Nanobiotechnology

KW - Scanning probe microscopy

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JO - Applied Surface Science

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Elastic modulus of suspended purple membrane measured by atomic force microscopy

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