Publications
Kinetics and mechanical stability of the fibril state control fibril formation time of polypeptide chains: A computational studyThe Journal of Chemical Physics 148, 215106, 2018.
REFOLDING OF HOMOPOLYMER UNDER QUENCHED FORCEVietnam Journal of Science and Technology 55 (6A), 1-8, 2017.
Switch from thermal to force-driven pathways of protein refoldingThe Journal of Chemical Physics 146, 135101, 2017.
Preformed template fluctuations promote fibril formation: Insights from lattice and all-atom modelsThe Journal of Chemical Physics 142, 145104 , 2015.
Key Factors Governing Fibril Formation Of Proteins: Insights From Simulations And ExperimentsTask Quarterly 18, 245–254, 2014.
A structure-based model fails to probe the mechanical unfolding pathways of the titin I27 domainThe Journal of Chemical Physics 139, 065103, 2013.
Universal geometrical factor of protein conformations as a consequence of energy minimizationEPL (Europhysics Letters) 96:68005 doi: 10.1209/0295-5075/96/68005, , 2011.
Relationship between population of the fibril-prone conformation in the monomeric state and oligomer formation times of peptides: Insights from all-atom simulationsThe Journal of Chemical Physics 132, 165104, 2010.
Dependence of protein mechanical unfolding pathways on pulling speedsThe Journal of Chemical Physics 130, 145102, 2009.
Protein mechanical unfolding: Importance of non-native interactionsThe Journal of Chemical Physics 131, 215103, 2009.
Inhibition of Fibril Formation of Beta-Amyloid PeptidesFrom Computational Biophysics to Systems Biology (CBSB08) Proceedings 40, 121-124, 2008.
New force replica exchange method and protein folding pathways probed by force-clamp techniqueThe Journal of Chemical Physics 128, 045103, 2008.
Refolding upon force quench and pathways of mechanical and thermal unfolding of ubiquitinBiophysical Journal 92, 547-61, 2007.
Effect of Finite Size on Cooperativity and Rates of Protein FoldingâThe Journal of Physical Chemistry A 110, 671-676, 2006.