Literature DB >> 16815893

A natural coarse graining for simulating large biomolecular motion.

Holger Gohlke1, M F Thorpe.   

Abstract

Various coarse graining schemes have been proposed to speed up computer simulations of the motion within large biomolecules, which can contain hundreds of thousands of atoms. We point out here that there is a very natural way of doing this, using the rigid regions identified within a biomolecule as the coarse grain elements. Subsequently, computer resources can be concentrated on the flexible connections between the rigid units. Examples of the use of such techniques are given for the protein barnase and the maltodextrin binding protein, using the geometric simulation technique FRODA and the rigidity enhanced elastic network model RCNMA to compute mobilities and atomic displacements.

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Year:  2006        PMID: 16815893      PMCID: PMC1557556          DOI: 10.1529/biophysj.106.083568

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  28 in total

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5.  Dynamic reorganization of the functionally active ribosome explored by normal mode analysis and cryo-electron microscopy.

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6.  Normal mode based flexible fitting of high-resolution structure into low-resolution experimental data from cryo-EM.

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9.  Multiscale modeling of macromolecular conformational changes combining concepts from rigidity and elastic network theory.

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Journal:  Nucleic Acids Res       Date:  2006-01-01       Impact factor: 16.971
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  37 in total

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Authors:  Craig C Jolley; Stephen A Wells; Petra Fromme; M F Thorpe
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8.  Microseconds dynamics simulations of the outer-membrane protease T.

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9.  Coarse-grained model for colloidal protein interactions, B(22), and protein cluster formation.

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Journal:  J Phys Chem B       Date:  2013-12-10       Impact factor: 2.991

10.  Can morphing methods predict intermediate structures?

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Journal:  J Mol Biol       Date:  2008-10-30       Impact factor: 5.469
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