Javier Alamilla, PhD

Neuroscience McMaster University, Hamilton, ON, Canada 
"Javier Alamilla"
Mean distance: 14.86 (cluster 6)
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Reyes-Mendez ME, Osuna-López F, Herrera-Zamora JM, et al. (2019) Functional Pre- and Postsynaptic Changes between the Retinohypothalamic Tract and Suprachiasmatic Nucleus during Rat Postnatal Development. Journal of Biological Rhythms. 748730419886990
Herrera-Zamora JM, Castro-Sánchez LA, Reyes-Mendez M, et al. (2019) Development-Dependent Changes in the NR2 Subtype of the N-Methyl-D-Aspartate Receptor in the Suprachiasmatic Nucleus of the Rat. Journal of Biological Rhythms. 748730418824198
Alamilla J, Granados-Fuentes D, Aguilar-Roblero R. (2015) The anterior Paraventricular Thalamus Modulates Neuronal Excitability in the Suprachiasmatic Nuclei of the Rat. The European Journal of Neuroscience
Case DT, Alamilla J, Gillespie DC. (2014) VGLUT3 does not synergize GABA/glycine release during functional refinement of an inhibitory auditory circuit. Frontiers in Neural Circuits. 8: 140
Alamilla J, Perez-Burgos A, Quinto D, et al. (2014) Circadian modulation of the Cl(-) equilibrium potential in the rat suprachiasmatic nuclei. Biomed Research International. 2014: 424982
Mitchell RR, Szabo E, Benoit YD, et al. (2014) Activation of neural cell fate programs toward direct conversion of adult human fibroblasts into tri-potent neural progenitors using OCT-4. Stem Cells and Development. 23: 1937-46
Alamilla J, Gillespie DC. (2013) Maturation of calcium-dependent GABA, glycine, and glutamate release in the glycinergic MNTB-LSO pathway. Plos One. 8: e75688
Alamilla J, Gillespie DC. (2011) Glutamatergic inputs and glutamate-releasing immature inhibitory inputs activate a shared postsynaptic receptor population in lateral superior olive. Neuroscience. 196: 285-96
Alamilla J, Aguilar-Roblero R. (2010) Glutamate and GABA neurotransmission from the paraventricular thalamus to the suprachiasmatic nuclei in the rat. Journal of Biological Rhythms. 25: 28-36
Mercado C, Díaz-Muñoz M, Alamilla J, et al. (2009) Ryanodine-sensitive intracellular Ca2+ channels in rat suprachiasmatic nuclei are required for circadian clock control of behavior. Journal of Biological Rhythms. 24: 203-10
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