Atomic force microscopic and theoretical studies of poly-ubiquitin proteins

Y. L. Yeh; C. H. Chang; K. K. Liang; Y. J. Shiu; Charlene Su; M. Hayashi; C. L. Chyan; G. Yang; Yan Mo; Yijing Yan; S. H. Lin

doi:10.1016/j.cplett.2004.10.048

Atomic force microscopic and theoretical studies of poly-ubiquitin proteins

Y. L. Yeh
, C. H. Chang
, K. K. Liang
, Y. J. Shiu
, Charlene Su
, M. Hayashi
, C. L. Chyan
, G. Yang
, Yan Mo
, Yijing Yan
, S. H. Lin

Academia Sinica - Institute of Atomic and Molecular Sciences
National Taiwan University
National Dong Hwa University
Drexel University
Hong Kong University of Science and Technology

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

In this Letter, a theoretical model for the force-extension experiment applied to protein folding-unfolding is presented. This model explicitly takes into account the interplay between the mechanical energy and chemical energy. It can treat the effect of denaturing agents (like pH, GdnHCl, urea, etc.) and temperature on the force-extension experiment of protein folding-unfolding. We further apply the model to analyze our own force-extension experiment on ubiquitin tetramers and to the experimental data of other protein systems reported in literature. The current model can predict the quantities like the values of equilibrium constant, chemical potential and mole fraction of unfolded state involved in protein folding-unfolding and we have found that the proteins adsorbed on gold surfaces are partially unfolded in comparison with the bulk state.

源语言	英语
页（从-至）	440-445
页数	6
期刊	Chemical Physics Letters
卷	399
期	4-6
DOI	https://doi.org/10.1016/j.cplett.2004.10.048
出版状态	已出版 - 1 12月 2004
已对外发布	是

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title = "Atomic force microscopic and theoretical studies of poly-ubiquitin proteins",

abstract = "In this Letter, a theoretical model for the force-extension experiment applied to protein folding-unfolding is presented. This model explicitly takes into account the interplay between the mechanical energy and chemical energy. It can treat the effect of denaturing agents (like pH, GdnHCl, urea, etc.) and temperature on the force-extension experiment of protein folding-unfolding. We further apply the model to analyze our own force-extension experiment on ubiquitin tetramers and to the experimental data of other protein systems reported in literature. The current model can predict the quantities like the values of equilibrium constant, chemical potential and mole fraction of unfolded state involved in protein folding-unfolding and we have found that the proteins adsorbed on gold surfaces are partially unfolded in comparison with the bulk state.",

author = "Yeh, \{Y. L.\} and Chang, \{C. H.\} and Liang, \{K. K.\} and Shiu, \{Y. J.\} and Charlene Su and M. Hayashi and Chyan, \{C. L.\} and G. Yang and Yan Mo and Yijing Yan and Lin, \{S. H.\}",

year = "2004",

month = dec,

day = "1",

doi = "10.1016/j.cplett.2004.10.048",

language = "英语",

volume = "399",

pages = "440--445",

journal = "Chemical Physics Letters",

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publisher = "Elsevier B.V.",

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TY - JOUR

T1 - Atomic force microscopic and theoretical studies of poly-ubiquitin proteins

AU - Yeh, Y. L.

AU - Chang, C. H.

AU - Liang, K. K.

AU - Shiu, Y. J.

AU - Su, Charlene

AU - Hayashi, M.

AU - Chyan, C. L.

AU - Yang, G.

AU - Mo, Yan

AU - Yan, Yijing

AU - Lin, S. H.

PY - 2004/12/1

Y1 - 2004/12/1

N2 - In this Letter, a theoretical model for the force-extension experiment applied to protein folding-unfolding is presented. This model explicitly takes into account the interplay between the mechanical energy and chemical energy. It can treat the effect of denaturing agents (like pH, GdnHCl, urea, etc.) and temperature on the force-extension experiment of protein folding-unfolding. We further apply the model to analyze our own force-extension experiment on ubiquitin tetramers and to the experimental data of other protein systems reported in literature. The current model can predict the quantities like the values of equilibrium constant, chemical potential and mole fraction of unfolded state involved in protein folding-unfolding and we have found that the proteins adsorbed on gold surfaces are partially unfolded in comparison with the bulk state.

AB - In this Letter, a theoretical model for the force-extension experiment applied to protein folding-unfolding is presented. This model explicitly takes into account the interplay between the mechanical energy and chemical energy. It can treat the effect of denaturing agents (like pH, GdnHCl, urea, etc.) and temperature on the force-extension experiment of protein folding-unfolding. We further apply the model to analyze our own force-extension experiment on ubiquitin tetramers and to the experimental data of other protein systems reported in literature. The current model can predict the quantities like the values of equilibrium constant, chemical potential and mole fraction of unfolded state involved in protein folding-unfolding and we have found that the proteins adsorbed on gold surfaces are partially unfolded in comparison with the bulk state.

UR - https://www.scopus.com/pages/publications/19944399101

U2 - 10.1016/j.cplett.2004.10.048

DO - 10.1016/j.cplett.2004.10.048

M3 - 文章

AN - SCOPUS:19944399101

SN - 0009-2614

VL - 399

SP - 440

EP - 445

JO - Chemical Physics Letters

JF - Chemical Physics Letters

IS - 4-6

ER -

Atomic force microscopic and theoretical studies of poly-ubiquitin proteins

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