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 | 219 | 2010 |
Microscopic mechanism for cold denaturation CL Dias, T Ala-Nissila, M Karttunen, I Vattulainen, M Grant Physical review letters 100 (11), 118101, 2008 | 146 | 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 | 92 | 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 | 66 | 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 | 59 | 2014 |
Hydrophobic interactions and hydrogen bonds in β-sheet formation C Narayanan, CL Dias The journal of chemical physics 139 (11), 2013 | 58 | 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 | 56 | 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 | 33 | 2019 |
Molecular interactions accounting for protein denaturation by urea Z Su, CL Dias Journal of Molecular Liquids 228, 168-175, 2017 | 33 | 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 |
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 |
Magnesium Regulates the Circadian Oscillator in Cyanobacteria YIK Young M. Jeong, Cristiano Dias, Casey Diekman, Helene Brochon, Pyonghwa ... Journal of Biological Rhythms, 2019 | 26 | 2019 |
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 |
Role of Cholesterol on Binding of Amyloid Fibrils with Lipid Bilayers CL Dias, LRC Cruz Biophysical Journal 118 (3), 559a, 2020 | 22 | 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 | 22 | 2011 |
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 | 21 | 2021 |
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 |