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Edward J Hancock

Showing results (1-10 of 13) with videos related to

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Journal of the Royal Society, Interface|March 9, 2022
Stabilization of antithetic control via molecular bufferingEdward J Hancock, Diego A OyarzĂșn
Physical Review. E|August 17, 2018
Model reduction for Kuramoto models with complex topologiesEdward J Hancock, Georg A Gottwald
Journal of the Royal Society, Interface|April 28, 2021
Metabolic buffer analysis reveals the simultaneous, independent control of ATP and adenylate energy ratiosEdward J Hancock, James R Krycer, Jordan Ang
Cell Systems|October 23, 2017
The Interplay between Feedback and Buffering in Cellular HomeostasisEdward J Hancock, Jordan Ang, Antonis Papachristodoulou, et al.
Journal of the Royal Society, Interface|June 12, 2015
Simplified mechanistic models of gene regulation for analysis and designEdward J Hancock, Guy-Bart Stan, James A J Arpino, et al.
The Journal of General Physiology|January 31, 2024
Correction: A dual-clock-driven model of lymphatic muscle cell pacemaking to emulate knock-out of Ano1 or IP3REdward J Hancock, Scott D Zawieja, Charlie Macaskill, et al.
The Journal of General Physiology|October 18, 2023
A dual-clock-driven model of lymphatic muscle cell pacemaking to emulate knock-out of Ano1 or IP3REdward J Hancock, Scott D Zawieja, Charlie Macaskill, et al.
Royal Society Open Science|January 9, 2025
Modelling pacemaker oscillations in lymphatic muscle cells: lengthened action potentials by two distinct system effectsEdward J Hancock, Charlie Macaskill, Scott D Zawieja, et al.
The Journal of General Physiology|July 1, 2024
Correction: A dual-clock-driven model of lymphatic muscle cell pacemaking to emulate knock-out of Ano1 or IP3REdward J Hancock, Scott D Zawieja, Charlie Macaskill, et al.
Royal Society Open Science|May 19, 2021
Control theory helps to resolve the measles paradoxAnet J N Anelone, Edward J Hancock, Nigel Klein, et al.
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
Journal of the Royal Society, Interface|March 9, 2022
Stabilization of antithetic control via molecular bufferingEdward J Hancock, Diego A OyarzĂșn
Physical Review. E|August 17, 2018
Model reduction for Kuramoto models with complex topologiesEdward J Hancock, Georg A Gottwald
Journal of the Royal Society, Interface|April 28, 2021
Metabolic buffer analysis reveals the simultaneous, independent control of ATP and adenylate energy ratiosEdward J Hancock, James R Krycer, Jordan Ang
Cell Systems|October 23, 2017
The Interplay between Feedback and Buffering in Cellular HomeostasisEdward J Hancock, Jordan Ang, Antonis Papachristodoulou, et al.
Journal of the Royal Society, Interface|June 12, 2015
Simplified mechanistic models of gene regulation for analysis and designEdward J Hancock, Guy-Bart Stan, James A J Arpino, et al.
The Journal of General Physiology|January 31, 2024
Correction: A dual-clock-driven model of lymphatic muscle cell pacemaking to emulate knock-out of Ano1 or IP3REdward J Hancock, Scott D Zawieja, Charlie Macaskill, et al.
The Journal of General Physiology|October 18, 2023
A dual-clock-driven model of lymphatic muscle cell pacemaking to emulate knock-out of Ano1 or IP3REdward J Hancock, Scott D Zawieja, Charlie Macaskill, et al.
Royal Society Open Science|January 9, 2025
Modelling pacemaker oscillations in lymphatic muscle cells: lengthened action potentials by two distinct system effectsEdward J Hancock, Charlie Macaskill, Scott D Zawieja, et al.
The Journal of General Physiology|July 1, 2024
Correction: A dual-clock-driven model of lymphatic muscle cell pacemaking to emulate knock-out of Ano1 or IP3REdward J Hancock, Scott D Zawieja, Charlie Macaskill, et al.
Royal Society Open Science|May 19, 2021
Control theory helps to resolve the measles paradoxAnet J N Anelone, Edward J Hancock, Nigel Klein, et al.
Pageof 2