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  A mesoscopic model for protein enzymatic dynamics in solution

Echeverria, C., Togashi, Y., Mikhailov, A. S., & Kapral, R. (2011). A mesoscopic model for protein enzymatic dynamics in solution. Physical Chemistry Chemical Physics, 13(22), 10527-10537. doi:10.1039/c1cp00003a.

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資料種別: 学術論文

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c1cp00003a.pdf (出版社版), 2MB
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c1cp00003a.pdf
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著作権日付:
2011
著作権情報:
RSC
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 作成者:
Echeverria, Carlos1, 著者
Togashi, Yuichi 2, 著者
Mikhailov, Alexander S.3, 著者           
Kapral, Raymond4, 著者
所属:
1Laboratorio de Investigacio ́n de Fı ́sica Aplicada y Computacional, Universidad Nacional Experimental del Ta ́chira, San Cristo ́bal 5001, b Venezuela, ou_persistent22              
2Cybermedia Center, Osaka University, 5-1 Mihogaoka, Ibaraki, Osaka 567-0047, Japan., ou_persistent22              
3Physical Chemistry, Fritz Haber Institute, Max Planck Society, ou_634546              
4Chemical Physics Theory Group, Department of Chemistry, University of Toronto, Toronto, ON M5S 3H6, Canada, ou_persistent22              

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 要旨: A multi-scale, coarse-grained description of protein conformational dynamics in a solvent is presented. The focus of the paper is on the description of the conformational motions that may accompany enzyme catalysis as the enzyme executes a catalytic cycle, starting with substrate binding and ending with product release and return to the original unbound enzyme. The protein is modeled by a network of beads representing amino acid residues, the solvent is described by multiparticle collision dynamics, and substrate binding and unbinding events are modeled stochastically by conformation-dependent transitions that modify the bonding in the network to correspond to the different binding states of the protein. The solvent dynamics is coupled to that of the protein and hydrodynamic interactions, which are important for the large-scale protein motions, are taken into account. The multi-scale model is used to study the dynamics of the adenylate kinase enzyme in solution. A potential function that describes the different binding and conformational states of the protein and accounts for partial unfolding during the catalytic cycle is constructed as a network built from elastic network and soft potential links. The conformational dynamics of the protein as it undergoes cyclic enzymatic dynamics, as well as its translational diffusion and orientational motion, are investigated using both multiparticle collision dynamics and dynamics that suppresses hydrodynamic coupling. Hydrodynamic interactions are found to have important effects on the large scale conformational motions of the protein and significantly affect the translational diffusion coefficients and orientational correlation times.

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言語: eng - English
 日付: 2011
 出版の状態: 出版
 ページ: -
 出版情報: -
 目次: -
 査読: 査読あり
 識別子(DOI, ISBNなど): DOI: 10.1039/c1cp00003a
 学位: -

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出版物 1

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出版物名: Physical Chemistry Chemical Physics
種別: 学術雑誌
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出版社, 出版地: Cambridge [England] : Royal Society of Chemistry
ページ: - 巻号: 13 (22) 通巻号: - 開始・終了ページ: 10527 - 10537 識別子(ISBN, ISSN, DOIなど): ISSN: 1463-9076
CoNE: https://pure.mpg.de/cone/journals/resource/954925272413_1