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Dynamic Allostery: Linkers Are Not Merely Flexible

  1. Author:
    Ma, B. Y.
    Tsai, C. J.
    Haliloglu, T.
    Nussinov, R.

  2. Author Address

    [Ma, BY; Tsai, CJ; Nussinov, R] NCI Frederick, Basic Sci Program, SAIC Frederick Inc, Ctr Canc Res Nanobiol Program, Frederick, MD 21702 USA [Haliloglu, T] Bogazici Univ, Polymer Res Ctr, TR-34342 Bebek, Turkey [Haliloglu, T] Bogazici Univ, Dept Chem Engn, TR-34342 Bebek, Turkey [Nussinov, R] Tel Aviv Univ, Sackler Sch Med, Dept Human Genet & Mol Med, Sackler Inst Mol Med, IL-69978 Tel Aviv, Israel;Nussinov, R (reprint author), NCI Frederick, Basic Sci Program, SAIC Frederick Inc, Ctr Canc Res Nanobiol Program, Frederick, MD 21702 USA;ruthnu@helix.nih.gov
    1. Year: 2011
    2. Date: Jul
  2. Journal: Structure
    1. 19
    2. 7
    3. Pages: 907-917
  4. Type of Article: Review
  5. ISSN: 0969-2126
  1. Abstract:

    Most proteins consist of multiple domains. How do linkers efficiently transfer information between sites that are on different domains to activate the protein? Mere flexibility only implies that the conformations would be sampled. For fast timescales between triggering events and cellular response, which often involves large conformational change, flexibility on its own may not constitute a good solution. We posit that successive conformational states along major allosteric propagation pathways are pre-encoded in linker sequences where each state is encoded by the previous one. The barriers between these states that are hierarchically populated are lower, achieving faster timescales even for large conformational changes. We further propose that evolution has optimized the linker sequences and lengths for efficiency, which explains why mutations in linkers may affect protein function and review the literature in this light.

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External Sources

  1. View Full Text
  2. DOI: 10.1016/j.str.2011.06.002
  3. View record in Web of ScienceĀ®
  4. WOS: 000292789300004

Library Notes

  1. Fiscal Year: FY2010-2011
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