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Keywords: Cortex
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Dev Neurosci (2020) 42 (1): 59–71.
Published Online: 15 September 2020
... channel potentiation was performed by one injection of SK2/3 agonist (CyPPA) into the pallium of mice on postnatal day 2 (P2). When the animals reached adulthood (P55), the hippocampus and cortex were examined to assess neuronal maturation, lamination, and the distribution of synaptic cytoskeletal...
Journal Articles
Dev Neurosci (2020) 41 (5-6): 300–317.
Published Online: 21 July 2020
... Mitosis Progenitor Cortex Cell fate Neurogenesis NIH The cerebral cortex is a highly ordered and complex structure which is critical for our higher cognitive functions including analytical thought and complex learning and language. In the developing mouse cortex, neurons...
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Journal Articles
Dev Neurosci (2014) 36 (6): 490–498.
Published Online: 23 August 2014
... performed structure-based volumetric analysis of the brain assessing gross lobular subdivisions of the cerebral cortex and white matter which may have only vague relationships to the functional subregions implicated in behavioral and cognitive deficits observed in NSCLP patients. High-resolution magnetic...
Journal Articles
Dev Neurosci (1995) 17 (4): 246–250.
Published Online: 28 May 2010
... on the distribution of SSTR1 during ontogenesis, we have performed an in situ hybridization analysis, using a 35S-labelled RNA probe, in the developing rat cortex between embryonic day (E)12 and adulthood. Within the cortical plate, expression of SSTR1 gene was first detected in parallel with the establishment...
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Dev Neurosci (1995) 17 (4): 251–255.
Published Online: 28 May 2010
... on the distribution of SSTR1 during ontogenesis, we have performed an in situ hybridization analysis, using a 35S-labelled RNA probe, in the developing rat cortex between embryonic day (E)12 and adulthood. Within the cortical plate, expression of SSTR1 gene was first detected in parallel with the establishment...
Journal Articles
Dev Neurosci (1979) 2 (5): 245–248.
Published Online: 26 May 2010
...E.A. Singh; E.G. McGeer The specific activity of angiotensin converting enzyme (ACE) was studied in eight brain regions in rats 2–65 days of age. At 65 days of age the activities in various regions relative to the cortex were: neostriatum, 1,200%; hippocampus/amygdala, 430%; hypothalamus, 190...
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Dev Neurosci (2009) 31 (6): 497–510.
Published Online: 01 June 2009
...Anita Bhattacharyya; Erin McMillan; Serene I. Chen; Kyle Wallace; Clive N. Svendsen Down syndrome (DS) is a developmental disorder whose mental impairment is due to defective cortical development. Human neural progenitor cells (hNPCs) derived from fetal DS cortex initially produce normal numbers...
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Dev Neurosci (2007) 30 (1-3): 144–156.
Published Online: 13 December 2007
...Jilin Bai; Raddy L. Ramos; Murugan Paramasivam; Faez Siddiqi; James B. Ackman; Joseph J. LoTurco During forebrain development the lateral cortical stream (LCS) supplies neurons to structures in the ventral telencephalon including the amygdala and piriform cortex. In the current study, we used...
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Dev Neurosci (2006) 29 (1-2): 143–158.
Published Online: 07 December 2006
..., instructions or products referred to in the content or advertisements. Hippocampus Cortex GABA Interneurons Six3 Dlx5/6 Cre- loxP HGF/SF MET Mouse Original Paper Dev Neurosci 2007;29:143 158 DOI: 10.1159/000096219 Received: December 23, 2005 Accepted: May 10, 2006 Loss of Embryonic MET...
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Dev Neurosci (2004) 26 (2-4): 218–228.
Published Online: 08 February 2005
... by distinct subclasses of ionotropic glutamate receptors. 16 01 2004 11 04 2004 8 2 2005 Striatum Cortex Cell division Glutamate N-Methyl- D -aspartate Dev Neurosci 2004;26:218 228 DOI: 10.1159/000082139 Received: January 16, 2004 Accepted: April 11, 2004 Glutamate and Regulation...
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Dev Neurosci (2003) 25 (2-4): 162–172.
Published Online: 15 September 2003
... progenitor Neural stem cell Epidermal growth factor Transforming growth factor-α Fibroblast growth factor FGF-2 Notch Cortex Lentivirus Brain Astrocyte Neuron Cell fate Dev Neurosci 2003;25:162 172 DOI: 10.1159/000072265 Received: March 11, 2003 Accepted: April 28, 2003 Extrinsic and Intrinsic...
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Dev Neurosci (2003) 25 (2-4): 217–233.
Published Online: 15 September 2003
... in the cortex. Herein, we review previous studies demonstrating that oligodendrocyte-type-2 astrocyte progenitor cells (or oligodendrocyte precursor cells; aka O-2A/OPCs) of the developing postnatal cortex exhibit a striking cell-intrinsic bias towards undergoing prolonged self-renewal in the relative absence...
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Dev Neurosci (2003) 25 (2-4): 173–183.
Published Online: 15 September 2003
... single, double and triple knockout mice have provided evidence that the serotonergic system plays important roles in barrel field formation in the developing somatosensory cortex. Here we review evidence from these genetic mouse models and, based on the accumulated evidence, propose a testable model...
Journal Articles
Dev Neurosci (2003) 25 (2-4): 197–206.
Published Online: 15 September 2003
...Elizabeth M. Powell; Sven Mühlfriedel; Jürgen Bolz; Pat Levitt The initial axonal projections between the cerebral cortex and thalamus are established during embryogenesis. Chemoattractants and repellents are thought to provide specific guidance cues for directional growth of these pathways...
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Dev Neurosci (2002) 24 (2-3): 94–98.
Published Online: 28 October 2002
... 2+ transport across the abluminal membrane of the blood-brain barrier as it works in enterocytes. However, the presence of ferroportin1 in the brain has not been well determined. In the present study, we investigated expression of ferroportin1 protein in different brain regions, including cortex...
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