cached image

Peter G. Wolynes

1976-1980 Harvard University, Cambridge, MA, United States 
 1980-2000 University of Illinois, Urbana-Champaign, Urbana-Champaign, IL 
 2000-2011 University of California, San Diego, La Jolla, CA 
 2011- Rice University, Houston, TX 
protein folding, regulatory networks, glasses, many-body phenomena
"Peter Wolynes"
(Show more)

Cross-listing: Chemistry Tree


Sign in to add mentor
Roy Gerald Gordon grad student 1976 Harvard (Physics Tree)
 (Hydrodynamic boundary conditions and mode-mode coupling theory)
John M. Deutch post-doc 1977 MIT (Chemistry Tree)


Sign in to add trainee
Steven S. Plotkin grad student Rice University (Chemistry Tree)
Zhipeng Wang grad student
James L. Skinner grad student 1979 Harvard (Chemistry Tree)
John J. Portman grad student 2000 UIUC
Benjamin A. Shoemaker grad student 2000 UIUC
Xiaoyu Xia grad student 2001 UIUC
Charles C. Hardin grad student 2002 UIUC
Vassiliy Lubchenko grad student 2002 UIUC
Michael Prentiss grad student 2004 UCSD
Samuel S. Cho grad student 2007 UCSD
Joachim Latzer grad student 2007 UCSD
Ting Lu grad student 2007 UCSD
Chenghang Zong grad student 2007 UCSD
Daniel Schultz grad student 2009 UCSD
Jacob D. Stevenson grad student 2009 UCSD
Patrick Weinkam grad student 2009 UCSD
Anat Burger grad student 2012 UCSD
Shikai Jin grad student 2017-2021 Rice University
Richard A. Goldstein post-doc UIUC
Randall W. Hall post-doc 1984-1986 UIUC (Chemistry Tree)
Atsuo Kuki post-doc 1985-1986 UIUC (Chemistry Tree)
Yoshitaka Tanimura post-doc 1989-1991 UIUC (Chemistry Tree)
Jeffery G. Saven post-doc 1993-1995 UIUC (Chemistry Tree)
Wang Jin post-doc 1991-1996 UIUC (Chemistry Tree)
Anna Panchenko post-doc 1994-1997 UIUC
Osamu Miyashita post-doc 2000 UCSD (Chemistry Tree)
Garegin A. (Garyk) Papoian post-doc 2001-2004 UCSD (Chemistry Tree)
Diego U. Ferreiro post-doc 2004-2008 UCSD
Bin Zhang post-doc 2013-2016 Rice University (Chemistry Tree)
Min-Yeh Tsai post-doc 2014-2018 Rice University (Chemistry Tree)
David M. Leitner research scientist 1994-1998 UIUC (Chemistry Tree)
BETA: Related publications


You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect.

Chen X, Tsai MY, Wolynes PG. (2022) The Role of Charge Density Coupled DNA Bending in Transcription Factor Sequence Binding Specificity: A Generic Mechanism for Indirect Readout. Journal of the American Chemical Society
Chen X, Lu W, Tsai MY, et al. (2022) Exploring the folding energy landscapes of heme proteins using a hybrid AWSEM-heme model. Journal of Biological Physics
Sanches MN, Knapp K, Oliveira AB, et al. (2022) Examining the Ensembles of Amyloid-β Monomer Variants and Their Propensities to Form Fibers Using an Energy Landscape Visualization Method. The Journal of Physical Chemistry. B. 126: 93-99
Guzovsky AB, Schafer NP, Wolynes PG, et al. (2022) Localization of Energetic Frustration in Proteins. Methods in Molecular Biology (Clifton, N.J.). 2376: 387-398
Xu Y, Knapp K, Le KN, et al. (2021) Frustrated peptide chains at the fibril tip control the kinetics of growth of amyloid-β fibrils. Proceedings of the National Academy of Sciences of the United States of America. 118
Ediger MD, Gruebele M, Lubchenko V, et al. (2021) Glass Dynamics Deep in the Energy Landscape. The Journal of Physical Chemistry. B
Rausch AO, Freiberger MI, Leonetti CO, et al. (2021) FrustratometeR: an R-package to compute local frustration in protein structures, point mutants and MD simulations. Bioinformatics (Oxford, England)
Freiberger MI, Wolynes PG, Ferreiro DU, et al. (2021) Frustration in Fuzzy Protein Complexes Leads to Interaction Versatility. The Journal of Physical Chemistry. B. 125: 2513-2520
Lu W, Bueno C, Schafer NP, et al. (2021) OpenAWSEM with Open3SPN2: A fast, flexible, and accessible framework for large-scale coarse-grained biomolecular simulations. Plos Computational Biology. 17: e1008308
Gianni S, Freiberger MI, Jemth P, et al. (2021) Fuzziness and Frustration in the Energy Landscape of Protein Folding, Function, and Assembly. Accounts of Chemical Research
See more...