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William M Jacobs
William M Jacobs
Princeton University
在 princeton.edu 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Competing protein-RNA interaction networks control multiphase intracellular organization
DW Sanders, N Kedersha, DSW Lee, AR Strom, V Drake, JA Riback, ...
Cell 181 (2), 306-324. e28, 2020
5832020
Phase Transitions in Biological Systems with Many Components
WM Jacobs, D Frenkel
Biophysical Journal 112 (4), 683-691, 2017
1512017
Rational design of self-assembly pathways for complex multicomponent structures
WM Jacobs, A Reinhardt, D Frenkel
Proceedings of the National Academy of Sciences 112 (20), 6313-6318, 2015
1242015
Evidence of evolutionary selection for cotranslational folding
WM Jacobs, EI Shakhnovich
Proceedings of the National Academy of Sciences 114 (43), 11434-11439, 2017
1042017
Self-assembly of structures with addressable complexity
WM Jacobs, D Frenkel
Journal of the American Chemical Society 138 (8), 2457-2467, 2016
972016
Accessibility of the Shine-Dalgarno Sequence Dictates N-Terminal Codon Bias in E. coli
S Bhattacharyya, WM Jacobs, BV Adkar, J Yan, W Zhang, EI Shakhnovich
Molecular cell 70 (5), 894-905. e5, 2018
682018
Predicting phase behavior in multicomponent mixtures
WM Jacobs, D Frenkel
The Journal of chemical physics 139 (2), 2013
582013
Self-assembly of biomolecular condensates with shared components
WM Jacobs
Physical Review Letters 126 (25), 258101, 2021
502021
Cotranslational folding allows misfolding-prone proteins to circumvent deep kinetic traps
A Bitran, WM Jacobs, X Zhai, E Shakhnovich
Proceedings of the National Academy of Sciences 117 (3), 1485-1495, 2020
502020
Self-assembly of photonic crystals by controlling the nucleation and growth of DNA-coated colloids
A Hensley, WM Jacobs, WB Rogers
Proceedings of the National Academy of Sciences 119 (1), e2114050118, 2022
432022
Communication: Theoretical prediction of free-energy landscapes for complex self-assembly
WM Jacobs, A Reinhardt, D Frenkel
The Journal of Chemical Physics 142 (2), 021101, 2015
402015
Phase separation in solutions with specific and nonspecific interactions
WM Jacobs, DW Oxtoby, D Frenkel
The Journal of Chemical Physics 140 (20), 204109, 2014
312014
Structure-based prediction of protein-folding transition paths
WM Jacobs, EI Shakhnovich
Biophysical Journal 111 (5), 925-936, 2016
262016
Direct observation and rational design of nucleation behavior in addressable self-assembly
M Sajfutdinow, WM Jacobs, A Reinhardt, C Schneider, DM Smith
Proceedings of the National Academy of Sciences 115 (26), E5877-E5886, 2018
242018
Effect of protein structure on evolution of cotranslational folding
V Zhao, WM Jacobs, EI Shakhnovich
Biophysical Journal 119 (6), 1123-1134, 2020
222020
Acoustic energy dissipation and thermalization in carbon nanotubes: Atomistic modeling and mesoscopic description
WM Jacobs, DA Nicholson, H Zemer, AN Volkov, LV Zhigilei
Physical Review B 86 (16), 165414, 2012
202012
Self-assembly protocol design for periodic multicomponent structures
WM Jacobs, D Frenkel
Soft Matter 11 (46), 8930-8938, 2015
192015
Accurate protein-folding transition-path statistics from a simple free-energy landscape
WM Jacobs, EI Shakhnovich
The Journal of Physical Chemistry B 122 (49), 11126-11136, 2018
172018
Theory and simulation of multiphase coexistence in biomolecular mixtures
WM Jacobs
Journal of Chemical Theory and Computation 19 (12), 3429-3445, 2023
132023
Validation of DBFOLD: An efficient algorithm for computing folding pathways of complex proteins
A Bitran, WM Jacobs, E Shakhnovich
PLOS Computational Biology 16 (11), e1008323, 2020
122020
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