Follow
Steven Plotkin
Steven Plotkin
Professor of Physics, Faculty of Cell and Developmental Biology, University of British Columbia
Verified email at phas.ubc.ca
Title
Cited by
Cited by
Year
Intercellular propagated misfolding of wild-type Cu/Zn superoxide dismutase occurs via exosome-dependent and-independent mechanisms
LI Grad, JJ Yerbury, BJ Turner, WC Guest, E Pokrishevsky, MA O’Neill, ...
Proceedings of the National Academy of Sciences 111 (9), 3620-3625, 2014
4432014
Intermolecular transmission of superoxide dismutase 1 misfolding in living cells
LI Grad, WC Guest, A Yanai, E Pokrishevsky, MA O'Neill, E Gibbs, ...
Proceedings of the National Academy of Sciences 108 (39), 16398-16403, 2011
2992011
Understanding protein folding with energy landscape theory part I: basic concepts
SS Plotkin, JN Onuchic
Quarterly reviews of biophysics 35 (2), 111-167, 2002
2832002
The effects of nonnative interactions on protein folding rates: Theory and simulation
C Clementi, SS Plotkin
Protein Science 13 (7), 1750-1766, 2004
1902004
Statistical mechanics of a correlated energy landscape model for protein folding funnels
SS Plotkin, J Wang, PG Wolynes
The Journal of chemical physics 106 (7), 2932-2948, 1997
1791997
A systematically coarse-grained model for DNA and its predictions for persistence length, stacking, twist, and chirality
A Morriss-Andrews, J Rottler, SS Plotkin
The Journal of chemical physics 132 (3), 2010
1372010
Prion-like propagation of protein misfolding and aggregation in amyotrophic lateral sclerosis
L McAlary, SS Plotkin, JJ Yerbury, NR Cashman
Frontiers in molecular neuroscience 12, 262, 2019
1322019
Non-Markovian configurational diffusion and reaction coordinates for protein folding
SS Plotkin, PG Wolynes
Physical review letters 80 (22), 5015, 1998
1311998
Investigation of routes and funnels in protein folding by free energy functional methods
SS Plotkin, JN Onuchic
Proceedings of the National Academy of Sciences 97 (12), 6509-6514, 2000
1292000
Understanding protein folding with energy landscape theory Part II: Quantitative aspects
SS Plotkin, JN Onuchic
Quarterly reviews of biophysics 35 (3), 205-286, 2002
1272002
Three-body interactions improve the prediction of rate and mechanism in protein folding models
MR Ejtehadi, SP Avall, SS Plotkin
Proceedings of the National Academy of Sciences 101 (42), 15088-15093, 2004
1232004
Correlated energy landscape model for finite, random heteropolymers
SS Plotkin, J Wang, PG Wolynes
Physical Review E 53 (6), 6271, 1996
1201996
Passive immunotherapies targeting Aβ and tau in Alzheimer's disease
SS Plotkin, NR Cashman
Neurobiology of disease 144, 105010, 2020
1092020
Speeding protein folding beyond the Gō model: How a little frustration sometimes helps
SS Plotkin
Proteins: Structure, Function, and Bioinformatics 45 (4), 337-345, 2001
822001
Electrostatics in the stability and misfolding of the prion protein: salt bridges, self energy, and solvation
WC Guest, NR Cashman, SS Plotkin
Biochemistry and Cell Biology 88 (2), 371-381, 2010
592010
SOD1 exhibits allosteric frustration to facilitate metal binding affinity
A Das, SS Plotkin
Proceedings of the National Academy of Sciences 110 (10), 3871-3876, 2013
532013
Configurational diffusion on a locally connected correlated energy landscape; application to finite, random heteropolymers
J Wang, SS Plotkin, PG Wolynes
Journal de Physique I 7 (3), 395-421, 1997
491997
A theory for the anisotropic and inhomogeneous dielectric properties of proteins
WC Guest, NR Cashman, SS Plotkin
Physical Chemistry Chemical Physics 13 (13), 6286-6295, 2011
482011
Structural and energetic heterogeneity in protein folding. I. Theory
SS Plotkin, JN Onuchic
The Journal of chemical physics 116 (12), 5263-5283, 2002
462002
An effective solvent theory connecting the underlying mechanisms of osmolytes and denaturants for protein stability
A Linhananta, S Hadizadeh, SS Plotkin
Biophysical journal 100 (2), 459-468, 2011
432011
The system can't perform the operation now. Try again later.
Articles 1–20