The hydrophobic effect and its role in cold denaturation CL Dias, T Ala-Nissila, J Wong-Ekkabut, I Vattulainen, M Grant, ...
Cryobiology 60 (1), 91-99, 2010
223 2010 Microscopic mechanism for cold denaturation CL Dias, T Ala-Nissila, M Karttunen, I Vattulainen, M Grant
Physical review letters 100 (11), 118101, 2008
147 2008 Static charges cannot drive a continuous flow of water molecules through a carbon nanotube J Wong-Ekkabut, MS Miettinen, C Dias, M Karttunen
Nature Nanotechnology 5 (8), 555-557, 2010
93 2010 Unifying microscopic mechanism for pressure and cold denaturations of proteins CL Dias
Physical review letters 109 (4), 048104, 2012
76 2012 Three-dimensional “Mercedes-Benz” model for water CL Dias, T Ala-Nissila, M Grant, M Karttunen
The Journal of chemical physics 131 (5), 2009
67 2009 Pressure-dependent properties of elementary hydrophobic interactions: ramifications for activation properties of protein folding CL Dias, HS Chan
The Journal of Physical Chemistry B 118 (27), 7488-7509, 2014
61 2014 Hydrophobic interactions and hydrogen bonds in β-sheet formation C Narayanan, CL Dias
The journal of chemical physics 139 (11), 2013
59 2013 Effects of Trimethylamine- -oxide on the Conformation of Peptides and its Implications for Proteins Z Su, F Mahmoudinobar, CL Dias
Physical Review Letters 119 (10), 108102, 2017
57 2017 Hydrophobicity within the three-dimensional Mercedes-Benz model: Potential of mean force CL Dias, T Hynninen, T Ala-Nissila, AS Foster, M Karttunen
The Journal of chemical physics 134 (6), 2011
56 2011 GRADE: A code to determine clathrate hydrate structures F Mahmoudinobar, CL Dias
Computer Physics Communications 244, 385-391, 2019
37 2019 Molecular interactions accounting for protein denaturation by urea Z Su, CL Dias
Journal of Molecular Liquids 228, 168-175, 2017
34 2017 Rupture of an extended object: A many-body Kramers calculation A Sain, CL Dias, M Grant
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 74 (4 …, 2006
31 2006 Scaling in force spectroscopy of macromolecules CL Dias, M Dubé, FA Oliveira, M Grant
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 72 (1 …, 2005
31 2005 Magnesium Regulates the Circadian Oscillator in Cyanobacteria YIK Young M. Jeong, Cristiano Dias, Casey Diekman, Helene Brochon, Pyonghwa ...
Journal of Biological Rhythms, 2019
27 2019 Cutting ice: nanowire regelation T Hynninen, V Heinonen, CL Dias, M Karttunen, AS Foster, T Ala-Nissila
Physical review letters 105 (8), 086102, 2010
27 2010 Point defects in pure amorphous silicon and their role in structural relaxation: A tight-binding molecular-dynamics study X Urli, CL Dias, LJ Lewis, S Roorda
Physical Review B—Condensed Matter and Materials Physics 77 (15), 155204, 2008
26 2008 Binding mechanisms of amyloid-like peptides to lipid bilayers and effects of divalent cations Y Yang, S Jalali, BL Nilsson, CL Dias
ACS Chemical Neuroscience 12 (11), 2027-2035, 2021
24 2021 Role of Cholesterol on Binding of Amyloid Fibrils with Lipid Bilayers CL Dias, LRC Cruz
Biophysical Journal 118 (3), 559a, 2020
23 2020 Hydrophobic interactions in the formation of secondary structures in small peptides CL Dias, M Karttunen, HS Chan
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 84 (4 …, 2011
23 2011 Thermodynamic Stability of Polar and Nonpolar Amyloid Fibrils CLD Farbod Mahmoudinobar, Jennifer M. Urban, Zhaoqian Su, Bradley L. Nilsson
J. Chem. Theory Comput. 15, 3868−3874, 2019
21 2019