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メンバー

特別研究員

任 衛同

EDUCATION
2009
B.S. in Physics, Nanjing University, China
2012
M.S. in Physics, Nanjing University, China
2018
Ph. D in Physics, Nanjing University, China
RESEARCH EXPERIENCES
2019-present
Postdoctoral Researcher, RIKEN Theoretical Molecular Sciense Labotoray, Japan
RESEARCH PROJECTS
The functional dynamics of bio-macromolecules with theoretical simulations:
  1. Metal ions modulated protein folding and target recognition
  2. Phosphorylation modulated p53 binding to MDM2 by multi-scale simulations
  3. Functional dynamics of group II chaperonin
PUBLICATIONS

Peer review articles
  1. Metal cofactor modulated folding and target recognition of HIV-1 NCp7.

    W. Ren, D. Ji, X. Xu
    PLOS ONE, 13, e0196662 (2018).

  2. Exploration of the folding dynamics of human telomeric G-quadruplex with an hybrid atomistic structure-based model.

    Y. Bian, W. Ren, F. Song, J. Yu, and J. Wang
    Journal of Chemical Physics, 148, 204107 (2018).

  3. Consequences of Energetic Frustration on the Ligand-Coupled Folding/Dimerization Dynamics of Allosteric Protein S100A12.

    W. Ren, W. Li, J. Wang, J. Zhang, and W. Wang
    Journal of Physical Chemistry B, 121, 9799-9806 (2017).

  4. A novel missense mutation in the ALPL gene causes dysfunction of the protein.

    B. Chen, L. Li, W. Ren, L. Yi, Y. Wang, F. Yan
    Molecular Medicine Reports, 16, 710-718 (2017).

  5. Piecing Together the Allosteric Patterns of Chaperonin GroEL.

    J. Chen, Q. Zhang, W. Ren, and W. Li
    Journal of Physical Chemistry B, 121, 4987-4996 (2017).

  6. Molecular simulations of substrate release and coupled conformational motions in adenylate kinase.

    D. Cui, W. Ren, W. Li and W. Wang
    Journal of Theoretical and Computational Chemistry, 15, 1650004 (2016).

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