Search results for: COARSE GRAINING - Bridge of Knowledge

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Search results for: COARSE GRAINING

Search results for: COARSE GRAINING

  • A coarse‐grained approach to NMR ‐data‐assisted modeling of protein structures

    Publication

    The ESCASA algorithm for analytical estimation of proton positions from coarse-grained geometry developed in our recent work has been implemented in modeling protein structures with the highly coarse-grained UNRES model of polypeptide chains (two sites per residue) and nuclear magnetic resonance (NMR) data. A penalty function with the shape of intersecting gorges was applied to treat ambiguous distance restraints, which automatically...

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  • Coarse-grained simulation - an efficient approach for studying motions of large proteins

    Publication

    One of the most important challenges in performing Molecular Dynamics (MD) simulations of large protein complexes is to accommodate the model accuracy and the simulation timescale. Hitherto, for the most relevant dynamics of protein aggregates in an explicit aqueous environment, the timescale reachable for the all-atoms simulations is of hundreds of nanoseconds. This range is four to six orders of magnitude smaller than processes...

  • Physics-Based Coarse-Grained Modeling in Bio- and Nanochemistry

    Publication
    • A. Liwo
    • A. K. Sieradzan
    • A. S. Karczyńska
    • E. Lubecka
    • S. A. Samsonov
    • C. Czaplewski
    • P. Krupa
    • M. Mozolewska

    - Year 2021

    Coarse-grained approaches, in which groups of atoms are represented by single interaction sites, are very important in biological and materials sciences because they enable us to cover the size- and time-scales by several orders of magnitude larger than those available all-atom simulations, while largely keeping the details of the systems studied. The coarse-grained approaches differ by the scheme of reduction and by the origin...

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  • Modeling the Structure, Dynamics, and Transformations of Proteins with the UNRES Force Field

    Publication
    • A. K. Sieradzan
    • C. Czaplewski
    • P. Krupa
    • M. Mozolewska
    • A. S. Karczyńska
    • A. G. Lipska
    • E. Lubecka
    • E. Gołaś
    • T. Wirecki
    • M. Makowski... and 2 others

    - Year 2022

    The physics-based united-residue (UNRES) model of proteins ( www.unres.pl ) has been designed to carry out large-scale simulations of protein folding. The force field has been derived and parameterized based on the principles of statistical-mechanics, which makes it independent of structural databases and applicable to treat nonstandard situations such as, proteins that contain D-amino-acid residues. Powered by Langevin dynamics...

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