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Douglas G McMahon

Showing results (1-10 of 75) with videos related to

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Elife|December 20, 2021
Light sets the brain's daily clock by regional quickening and slowing of the molecular clockworks at dawn and duskSuil Kim, Douglas G McMahon
Neurobiology of Sleep and Circadian Rhythms|September 2, 2025
Effects of DNA methylation inhibitors on light-induced circadian clock plasticitySuil Kim, Douglas G McMahon
Peerj|September 8, 2016
The core clock gene Per1 phases molecular and electrical circadian rhythms in SCN neuronsJeff R Jones, Douglas G McMahon
Journal of Biological Rhythms|November 17, 2006
Encoding the ins and outs of circadian pacemakingSandra J Kuhlman, Douglas G McMahon
Journal of Biological Rhythms|April 21, 2016
The Retina and Other Light-sensitive Ocular ClocksJoseph C Besharse, Douglas G McMahon
Eye and Brain|November 6, 2023
Neuromodulation: Actions of Dopamine, Retinoic Acid, Nitric Oxide, and Other Substances on Retinal Horizontal CellsDouglas G McMahon, John E Dowling
Neural Plasticity|March 20, 2018
Photoperiodic Programming of the SCN and Its Role in Photoperiodic OutputMichael C Tackenberg, Douglas G McMahon
The European Journal of Neuroscience|August 13, 2004
Rhythmic regulation of membrane potential and potassium current persists in SCN neurons in the absence of environmental inputSandra J Kuhlman, Douglas G McMahon
Nature Neuroscience|March 5, 2005
Constant light desynchronizes mammalian clock neuronsHidenobu Ohta, Shin Yamazaki, Douglas G McMahon
Pediatric Research|July 22, 2006
Constant light disrupts the developing mouse biological clockHidenobu Ohta, Amanda C Mitchell, Douglas G McMahon
Pageof 8

Showing results (1-10 of 75) with videos related to

Sort By:
Pageof 8
Elife|December 20, 2021
Light sets the brain's daily clock by regional quickening and slowing of the molecular clockworks at dawn and duskSuil Kim, Douglas G McMahon
Neurobiology of Sleep and Circadian Rhythms|September 2, 2025
Effects of DNA methylation inhibitors on light-induced circadian clock plasticitySuil Kim, Douglas G McMahon
Peerj|September 8, 2016
The core clock gene Per1 phases molecular and electrical circadian rhythms in SCN neuronsJeff R Jones, Douglas G McMahon
Journal of Biological Rhythms|November 17, 2006
Encoding the ins and outs of circadian pacemakingSandra J Kuhlman, Douglas G McMahon
Journal of Biological Rhythms|April 21, 2016
The Retina and Other Light-sensitive Ocular ClocksJoseph C Besharse, Douglas G McMahon
Eye and Brain|November 6, 2023
Neuromodulation: Actions of Dopamine, Retinoic Acid, Nitric Oxide, and Other Substances on Retinal Horizontal CellsDouglas G McMahon, John E Dowling
Neural Plasticity|March 20, 2018
Photoperiodic Programming of the SCN and Its Role in Photoperiodic OutputMichael C Tackenberg, Douglas G McMahon
The European Journal of Neuroscience|August 13, 2004
Rhythmic regulation of membrane potential and potassium current persists in SCN neurons in the absence of environmental inputSandra J Kuhlman, Douglas G McMahon
Nature Neuroscience|March 5, 2005
Constant light desynchronizes mammalian clock neuronsHidenobu Ohta, Shin Yamazaki, Douglas G McMahon
Pediatric Research|July 22, 2006
Constant light disrupts the developing mouse biological clockHidenobu Ohta, Amanda C Mitchell, Douglas G McMahon
Pageof 8