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Andrew D Rutenberg

Showing results (1-10 of 51) with videos related to

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Physical Review. E|October 16, 2021
Non-Fickian single-file pore transportSpencer Farrell, Andrew D Rutenberg
The Journal of Chemical Physics|September 17, 2017
Photobleaching of randomly rotating fluorescently decorated particlesSwadhin Taneja, Andrew D Rutenberg
Physical Review Letters|April 12, 2003
Pattern formation inside bacteria: fluctuations due to the low copy number of proteinsMartin Howard, Andrew D Rutenberg
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|August 27, 2011
Monodisperse domains by proteolytic control of the coarsening instabilityJulien Derr, Andrew D Rutenberg
Arxiv|November 14, 2023
Network dynamical stability analysis reveals key "mallostatic" natural variables that erode homeostasis and drive age-related decline of healthGlen Pridham, Andrew D Rutenberg
The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences|January 11, 2024
Dynamical Network Stability Analysis of Multiple Biological Ages Provides a Framework for Understanding the Aging ProcessGlen Pridham, Andrew D Rutenberg
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|December 31, 2005
Maximally fast coarsening algorithmsMowei Cheng, Andrew D Rutenberg
Biophysical Journal|December 18, 2014
Lateral exchange smooths the way for vimentin filamentsLaurent Kreplak, Andrew D Rutenberg
Biophysical Journal|February 8, 2018
Unlocking Collagen Proteolysis with a Gentle PullLaurent Kreplak, Andrew D Rutenberg
Scientific Reports|December 13, 2023
Network dynamical stability analysis reveals key "mallostatic" natural variables that erode homeostasis and drive age-related decline of healthGlen Pridham, Andrew D Rutenberg
Pageof 6

Showing results (1-10 of 51) with videos related to

Sort By:
Pageof 6
Physical Review. E|October 16, 2021
Non-Fickian single-file pore transportSpencer Farrell, Andrew D Rutenberg
The Journal of Chemical Physics|September 17, 2017
Photobleaching of randomly rotating fluorescently decorated particlesSwadhin Taneja, Andrew D Rutenberg
Physical Review Letters|April 12, 2003
Pattern formation inside bacteria: fluctuations due to the low copy number of proteinsMartin Howard, Andrew D Rutenberg
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|August 27, 2011
Monodisperse domains by proteolytic control of the coarsening instabilityJulien Derr, Andrew D Rutenberg
Arxiv|November 14, 2023
Network dynamical stability analysis reveals key "mallostatic" natural variables that erode homeostasis and drive age-related decline of healthGlen Pridham, Andrew D Rutenberg
The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences|January 11, 2024
Dynamical Network Stability Analysis of Multiple Biological Ages Provides a Framework for Understanding the Aging ProcessGlen Pridham, Andrew D Rutenberg
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|December 31, 2005
Maximally fast coarsening algorithmsMowei Cheng, Andrew D Rutenberg
Biophysical Journal|December 18, 2014
Lateral exchange smooths the way for vimentin filamentsLaurent Kreplak, Andrew D Rutenberg
Biophysical Journal|February 8, 2018
Unlocking Collagen Proteolysis with a Gentle PullLaurent Kreplak, Andrew D Rutenberg
Scientific Reports|December 13, 2023
Network dynamical stability analysis reveals key "mallostatic" natural variables that erode homeostasis and drive age-related decline of healthGlen Pridham, Andrew D Rutenberg
Pageof 6