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pro vyhledávání: '"Jason R. Gerstner"'
Publikováno v:
Frontiers in Systems Neuroscience, Vol 18 (2024)
Externí odkaz:
https://doaj.org/article/06c9aaa507c44dabb49b193a1f40b237
Publikováno v:
Frontiers in Systems Neuroscience, Vol 17 (2023)
Sleep and circadian rhythms are observed broadly throughout animal phyla and influence neural plasticity and cognitive function. However, the few phylogenetically conserved cellular and molecular pathways that are implicated in these processes are la
Externí odkaz:
https://doaj.org/article/693e90b58acc4586aa18ea6af3d1d6b9
Autor:
Hope Needham, Grace Torpey, Carlos C. Flores, Christopher J. Davis, William M. Vanderheyden, Jason R. Gerstner
Publikováno v:
Frontiers in Neuroscience, Vol 16 (2022)
Fatty acid binding proteins (FABPs) are a family of intracellular lipid chaperone proteins known to play critical roles in the regulation of fatty acid uptake and transport as well as gene expression. Brain-type fatty acid binding protein (FABP7) is
Externí odkaz:
https://doaj.org/article/d03fa62519b34b85a599cd9e3d6810db
Autor:
Jason R. Gerstner, Georgios K. Paschos
Publikováno v:
Molecular Brain, Vol 13, Iss 1, Pp 1-3 (2020)
Abstract The astrocyte brain-type fatty acid binding protein (Fabp7) gene expression cycles globally throughout mammalian brain, and is known to regulate sleep in multiple species, including humans. The mechanisms that control circadian Fabp7 gene ex
Externí odkaz:
https://doaj.org/article/a877068191f44099b49dace4c767e8f4
Publikováno v:
Current Research in Neurobiology, Vol 2, Iss , Pp 100009- (2021)
The astrocyte brain-type fatty-acid binding protein (Fabp7) circadian gene expression is synchronized in the same temporal phase throughout mammalian brain. Cellular and molecular mechanisms that contribute to this coordinated expression are not comp
Externí odkaz:
https://doaj.org/article/64b873bdb5df4171bbca83a1828a7fff
Autor:
Christopher J. Re, Alexander I. Batterman, Jason R. Gerstner, Russell J. Buono, Thomas N. Ferraro
Publikováno v:
Frontiers in Neurology, Vol 11 (2020)
Seizure patterns observed in patients with epilepsy suggest that circadian rhythms and sleep/wake mechanisms play some role in the disease. This review addresses key topics in the relationship between circadian rhythms and seizures in epilepsy. We pr
Externí odkaz:
https://doaj.org/article/b43fa48837f5430ea70037269a2ee184
Autor:
Oluwanifemi Shola-Dare, Shelby Bailess, Carlos C. Flores, William M. Vanderheyden, Jason R. Gerstner
Publikováno v:
International Journal of Molecular Sciences, Vol 22, Iss 23, p 12740 (2021)
Parkinson’s Disease (PD) is the most common movement disorder, and the strongest genetic risk factor for PD is mutations in the glucocerebrosidase gene (GBA). Mutations in GBA also lead to the development of Gaucher Disease (GD), the most common ty
Externí odkaz:
https://doaj.org/article/3096cb3fe55442aba68b3a493856a057
Publikováno v:
Neuroglia; Volume 3; Issue 2; Pages: 73-83
Humans with post-traumatic stress disorder (PTSD) exhibit sleep disturbances that include insomnia, nightmares, and enhanced daytime sleepiness. Sleep disturbances are considered a hallmark feature of PTSD; however, little is known about the cellular
Autor:
William M. Vanderheyden, Jason R. Gerstner, Shelby Bailess, Carlos C. Flores, Oluwanifemi Shola-Dare
Publikováno v:
International Journal of Molecular Sciences; Volume 22; Issue 23; Pages: 12740
International Journal of Molecular Sciences
International Journal of Molecular Sciences, Vol 22, Iss 12740, p 12740 (2021)
International Journal of Molecular Sciences
International Journal of Molecular Sciences, Vol 22, Iss 12740, p 12740 (2021)
Parkinson’s Disease (PD) is the most common movement disorder, and the strongest genetic risk factor for PD is mutations in the glucocerebrosidase gene (GBA). Mutations in GBA also lead to the development of Gaucher Disease (GD), the most common ty
Publikováno v:
Current Research in Neurobiology, Vol 2, Iss, Pp 100009-(2021)
Curr Res Neurobiol
Curr Res Neurobiol
The astrocyte brain-type fatty-acid binding protein (Fabp7) circadian gene expression is synchronized in the same temporal phase throughout mammalian brain. Cellular and molecular mechanisms that contribute to this coordinated expression are not comp