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Um caso de polynevriteMonteiro, Francisco de Mendonça January 1922 (has links)
No description available.
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Functional analysis of Rac1B during neuronal developmentAlbertinazzi, Chiara January 2002 (has links)
No description available.
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The Receptor Protein Tyrosine Phosphatase-mu Signaling Pathway Differentially Regulates E-cadherin, N-cadherin and R-cadherin-Mediated Axon OutgrowthOblander, Samantha Anne 21 July 2009 (has links)
No description available.
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Multiple roles for retinoic acid in the development of the chick nervous systemGale, Emily Anne January 1996 (has links)
No description available.
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Structure of the human N-cadherin geneWallis, Julia Ann January 1996 (has links)
No description available.
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Ultra Low Concentrations of Morphine Increase Neurite Outgrowth in Cultured Rat Spinal Cord and Cerebral Cortical NeuronsBrailoiu, Eugen, Hoard, Jennifer, Brailoiu, G. Cristina, Chi, Michelle, Godbolde, Ramona, Dun, Nae J. 15 July 2004 (has links)
The present study was undertaken to evaluate the effects of ultra low concentrations (10-9 or 10-14 M) of morphine on neurite elongation in cultured neurons dissociated from rat spinal cords and cerebral cortex. In fetal serum (FS) or fetal serum-free supplemented with cAMP media, the length of longest neurite was significantly increased by 10-9 or 10-14 M morphine. For example, 10-14 M morphine increased neurite length by 24±0.5% and 27±0.3% in spinal cord neurons, and 18±0.2% and 17±0.6% in cortical neurons. Morphine (10-6 M) had no significant effect on neurite length of spinal and cortical neurons. The relative frequency distribution of neurite length revealed 61±2.7% of spinal neurons and 48±2.6% of cortical neurons are responsive to ultra low concentrations of morphine. In the responsive populations, morphine (10 -14 M) enhanced the neurite outgrowth in spinal neurons by 58±0.9% and 48±1.2% and in cortical neurons by 31±0.6% and 28±0.9% in FS and cAMP-supplemented media, respectively. Pretreatment with naloxone did not prevent the morphine effect. The result shows that morphine at ultra low concentrations enhances neurite outgrowth of spinal and cortical neurons via a naloxone-independent mechanism.
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THE IMPORTANCE OF SUBCELLULAR LOCALIZATION OF CA2+/CALMODULIN DEPENDENT PROTEIN KINASE II IN NEURONAL DIFFERENTIATIONKUTCHER, LOUIS WM. III 17 April 2003 (has links)
No description available.
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Primary culture of Drosophila larval neurons with morphological analysis using NeuronMetricsSmrt, Richard D., Lewis, Sara A., Kraft, Robert, Restifo, Linda L. 12 1900 (has links)
No description available.
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MOLECULAR MECHANISM OF L1CAM FUNCTION: AXON GROWTH AND GUIDANCECheng, Ling 07 April 2004 (has links)
No description available.
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Total synthesis of (±)-Merrilactone A and (±)-Anislactone AShi, Lei January 2011 (has links)
Merrilactone A (1) was isolated in only 0.004% yield from the methanol extracts of the pericarps of Illicium merrillianum. Structural elucidation of Merrilactone A revealed a compact, cage-like pentacyclic architecture of high molecular complexity, featuring seven stereocentres, five of which as contiguous fully substituted carbon atoms, two γ-lactones and a central oxetane ring. Merrilactone A also exhibits an important neurotrophic activity, significantly promoting neurite outgrowth in the primary cultures of foetal rat cortical neurons at very low concentrations. Structurally, merrilactone A is related to anislactones A and B, a pair of epimeric sesquiterpene dilactones discovered ten years earlier by Kouno and co-workers from the related Illicium anisatum plant. Fukuyama has shown that anislactone B can be converted into merrilactone A using a simple three step sequence, suggesting that the anislactones may be biogenetic precursors to merrilactone A. Described in this thesis are our research efforts directed towards developing a conceptually novel synthetic route enabling regiodivergent total synthesis of both anislactone A / B and merrilactone A. Our synthetic route (around 22 steps) features several key reactions, which include a [2+2] photo-cycloaddition reaction, Tiffeneau-Demjanov ring expansion and titanium(III) mediated radical cyclization.
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