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John S Schreck

Showing results (1-10 of 24) with videos related to

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Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|September 28, 2010
Exactly solvable model for helix-coil-sheet transitions in protein systemsJohn S Schreck, Jian-Min Yuan
International Journal of Molecular Sciences|August 28, 2013
Statistical mechanical treatments of protein amyloid formationJohn S Schreck, Jian-Min Yuan
The Journal of Physical Chemistry. B|May 4, 2013
A kinetic study of amyloid formation: fibril growth and length distributionsJohn S Schreck, Jian-Min Yuan
The Journal of Chemical Physics|December 24, 2011
A statistical mechanical approach to protein aggregationJohn S Schreck, Jian-Min Yuan
Nucleic Acids Research|October 12, 2020
Understanding DNA interactions in crowded environments with a coarse-grained modelFan Hong, John S Schreck, Petr Šulc
The Journal of Physical Chemistry. B|October 26, 2020
Investigating the Effects of Molecular Crowding on the Kinetics of Protein AggregationJohn S Schreck, John Bridstrup, Jian-Min Yuan
ACS Central Science|July 3, 2019
Learning Retrosynthetic Planning through Simulated ExperienceJohn S Schreck, Connor W Coley, Kyle J M Bishop
Journal of Physics. Condensed Matter : an Institute of Physics Journal|November 11, 2016
Self-assembly of two-dimensional binary quasicrystals: a possible route to a DNA quasicrystalAleks Reinhardt, John S Schreck, Flavio Romano, et al.
The Journal of Physical Chemistry. B|June 3, 2021
Stochastic Kinetic Treatment of Protein Aggregation and the Effects of Macromolecular CrowdingJohn Bridstrup, John S Schreck, Jesse L Jorgenson, et al.
Nanoscale|February 7, 2022
Characterizing the free-energy landscapes of DNA origamisChak Kui Wong, Chuyan Tang, John S Schreck, et al.
Pageof 3

Showing results (1-10 of 24) with videos related to

Sort By:
Pageof 3
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|September 28, 2010
Exactly solvable model for helix-coil-sheet transitions in protein systemsJohn S Schreck, Jian-Min Yuan
International Journal of Molecular Sciences|August 28, 2013
Statistical mechanical treatments of protein amyloid formationJohn S Schreck, Jian-Min Yuan
The Journal of Physical Chemistry. B|May 4, 2013
A kinetic study of amyloid formation: fibril growth and length distributionsJohn S Schreck, Jian-Min Yuan
The Journal of Chemical Physics|December 24, 2011
A statistical mechanical approach to protein aggregationJohn S Schreck, Jian-Min Yuan
Nucleic Acids Research|October 12, 2020
Understanding DNA interactions in crowded environments with a coarse-grained modelFan Hong, John S Schreck, Petr Šulc
The Journal of Physical Chemistry. B|October 26, 2020
Investigating the Effects of Molecular Crowding on the Kinetics of Protein AggregationJohn S Schreck, John Bridstrup, Jian-Min Yuan
ACS Central Science|July 3, 2019
Learning Retrosynthetic Planning through Simulated ExperienceJohn S Schreck, Connor W Coley, Kyle J M Bishop
Journal of Physics. Condensed Matter : an Institute of Physics Journal|November 11, 2016
Self-assembly of two-dimensional binary quasicrystals: a possible route to a DNA quasicrystalAleks Reinhardt, John S Schreck, Flavio Romano, et al.
The Journal of Physical Chemistry. B|June 3, 2021
Stochastic Kinetic Treatment of Protein Aggregation and the Effects of Macromolecular CrowdingJohn Bridstrup, John S Schreck, Jesse L Jorgenson, et al.
Nanoscale|February 7, 2022
Characterizing the free-energy landscapes of DNA origamisChak Kui Wong, Chuyan Tang, John S Schreck, et al.
Pageof 3