Nobu C. Shirai’s Web Page

English / Japanese

Papers

The Biophyiscal Society of Japan

1. “Intrinsic disorder under crowded environment: thermodynamic simulation of α-synuclein amyloid fibril formation”
   Nobu C. Shirai, 3SEA-06, Sep. 27 (2014).
   
   
2. “Coarse-grained simulation of chromatosome: H1-mediated dynamic compaction of nucleosome structure”
   Nobu C. Shirai and Shoji Takada, 3P118, Sep. 27 (2014).
   
   
3. “Macromolecular crowding effect on fibril formation of α-synuclein”
   Nobu C. Shirai and Macoto Kikuchi, 2P074, Oct. 29 (2013).
   
   
4. “The possible advantage of structural disorder of intrinsically disordered proteins in the new type of signaling mechanism”
   Nobu C. Shirai and Macoto Kikuchi, 1B1534, Sep. 22 (2012).
   
   
5. “Binding Process of Intrinsically Disordered Protein Studied by a Lattice Model of Protein”
   Nobu Shirai and Macoto Kikuchi, 1F1648, Sep. 16 (2011).
   
   
6. “A Lattice Model of Intrinsically Disordered Proteins”
   Nobu Shirai and Macoto Kikuchi, 2P056, Sep. 21 (2010).
   
   

The Physical Society of Japan

1. “Macromolecular crowding effect on fibril formation of α-synuclein”
   Nobu C. Shirai and Macoto Kikuchi, 27aAB-6 (2013).
   
   
2. “The possible advantage of structural disorder of intrinsically disordered proteins in the new type of signaling mechanism II”
   Nobu Shirai and Macoto Kikuchi, 28aPS-108 (2013).
   
   
3. “The statistical enumeration method for self-avoiding walks using the extended ensemble method”
   Nobu Shirai and Macoto Kikuchi, 26pXR-5 (2013).
   
   
4. “The possible advantage of structural disorder of intrinsically disordered proteins in the new type of signaling mechanism”
   Nobu Shirai and Macoto Kikuchi, 20pAB-7 (2012).
   
   
5. “A Lattice Gas Model of Protein Binding Process II”
   Nobu Shirai and Macoto Kikuchi, 27aPS-33 (2012).
   
   
6. “Thermodynamic analysis of a lattice model of Intrinsically Disordered Proteins II”
   Nobu Shirai and Macoto Kikuchi, 24aPS-25 (2011).
   
   
7. “A Lattice Gas Model of Protein Binding Process”
   Nobu Shirai and Macoto Kikuchi, 28aGV-9 (2011).
   
   
8. “Thermodynamic analysis of a lattice model of Intrinsically Disordered Proteins”
   Nobu Shirai and Macoto Kikuchi, 23aTG-7 (2010).
   
   
9. “A lattice model of intrinsically disordered proteins”
   Nobu Shirai and Macoto Kikuchi, 21aEF-11 (2010).
   
   

The Protein Science Society of Japan

1. Computer simulations of intrinsically disordered protein to search for a functional advantage of structural disorder
   Nobu Shirai and Macoto Kikuchi, 2WC-3 (2013).
   
2. The possible advantage of structural disorder of intrinsically disordered proteins in the new type of signaling mechanism
   Nobu Shirai and Macoto Kikuchi, 1P-060 (2012).