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Summary Anatomy Item Literature (1946) Expression Attributions Wiki
XB-ANAT-487

Papers associated with neuron (and th)

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Temporal and spatial transcriptomic dynamics across brain development in Xenopus laevis tadpoles., Ta AC., G3 (Bethesda). January 4, 2022; 12 (1):               

Deep-brain photoreception links luminance detection to motor output in Xenopus frog tadpoles., Currie SP., Proc Natl Acad Sci U S A. May 24, 2016; 113 (21): 6053-8.                      

Ascl1 phospho-status regulates neuronal differentiation in a Xenopus developmental model of neuroblastoma., Wylie LA., Dis Model Mech. May 1, 2015; 8 (5): 429-41.                

Dopamine: a parallel pathway for the modulation of spinal locomotor networks., Sharples SA., Front Neural Circuits. June 16, 2014; 8 55.          

Wiring the retinal circuits activated by light during early development., Bertolesi GE., Neural Dev. February 13, 2014; 9 3.              

Pax3 and Zic1 drive induction and differentiation of multipotent, migratory, and functional neural crest in Xenopus embryos., Milet C., Proc Natl Acad Sci U S A. April 2, 2013; 110 (14): 5528-33.                      

Generation of functional eyes from pluripotent cells., Viczian AS., PLoS Biol. August 1, 2009; 7 (8): e1000174.                                

Mediolateral and rostrocaudal topographic organization of the sympathetic preganglionic cell pool in the spinal cord of Xenopus laevis., Nakano M., J Comp Neurol. March 20, 2009; 513 (3): 292-314.                      

Anuran olfactory bulb organization: embryology, neurochemistry and hodology., Moreno N., Brain Res Bull. March 18, 2008; 75 (2-4): 241-5.

Ptf1a triggers GABAergic neuronal cell fates in the retina., Dullin JP., BMC Dev Biol. May 31, 2007; 7 110.              

Timing the generation of distinct retinal cells by homeobox proteins., Decembrini S., PLoS Biol. September 1, 2006; 4 (9): e272.                          

Colocalization of nitric oxide synthase and monoamines in neurons of the amphibian brain., López JM., Brain Res Bull. September 15, 2005; 66 (4-6): 555-9.

Localization of Mel1b melatonin receptor-like immunoreactivity in ocular tissues of Xenopus laevis., Wiechmann AF., Exp Eye Res. October 1, 2004; 79 (4): 585-94.                  

Differential distribution of Mel(1a) and Mel(1c) melatonin receptors in Xenopus laevis retina., Wiechmann AF., Exp Eye Res. January 1, 2003; 76 (1): 99-106.          

Tyrosine hydroxylase-immunoreactive interneurons in the olfactory bulb of the frogs Rana pipiens and Xenopus laevis., Boyd JD., J Comp Neurol. December 2, 2002; 454 (1): 42-57.  

Reduction in cell size during development of the spinal cord., Chen A., J Comp Neurol. July 12, 1999; 409 (4): 592-602.  

Identification of suprachiasmatic melanotrope-inhibiting neurons in Xenopus laevis: a confocal laser-scanning microscopy study., Ubink R., J Comp Neurol. July 20, 1998; 397 (1): 60-8.          

Does lineage determine the dopamine phenotype in the tadpole hypothalamus?: A quantitative analysis., Huang S., J Neurosci. April 1, 1992; 12 (4): 1351-62.                

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