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Cell-type expression and activation by light of neuropsins in the developing and mature Xenopus retina. , Man LLH., Front Cell Neurosci. January 1, 2023; 17 1266945.
Patterns of tubb2b Promoter-Driven Fluorescence in the Forebrain of Larval Xenopus laevis. , Daume D., Front Neuroanat. January 1, 2022; 16 914281.
Analysis of pallial/cortical interneurons in key vertebrate models of Testudines, Anurans and Polypteriform fishes. , Jiménez S., Brain Struct Funct. September 1, 2020; 225 (7): 2239-2269.
Gabapentin Modulates HCN4 Channel Voltage-Dependence. , Tae HS., Front Pharmacol. May 26, 2017; 8 554.
Pattern of Neurogenesis and Identification of Neuronal Progenitor Subtypes during Pallial Development in Xenopus laevis. , Moreno N ., Front Neuroanat. March 27, 2017; 11 24.
Gene expression analysis of developing cell groups in the pretectal region of Xenopus laevis. , Morona R., J Comp Neurol. March 1, 2017; 525 (4): 715-752.
Pattern of calbindin-D28k and calretinin immunoreactivity in the brain of Xenopus laevis during embryonic and larval development. , Morona R., J Comp Neurol. January 1, 2013; 521 (1): 79-108.
In vivo evidence for the involvement of the carboxy terminal domain in assembling connexin 36 at the electrical synapse. , Helbig I., Mol Cell Neurosci. September 1, 2010; 45 (1): 47-58.
Immunohistochemical localization of calbindin-D28k and calretinin in the brainstem of anuran and urodele amphibians. , Morona R., J Comp Neurol. August 10, 2009; 515 (5): 503-37.
Generation of functional eyes from pluripotent cells. , Viczian AS ., PLoS Biol. August 1, 2009; 7 (8): e1000174.
Calbindin-D28k and calretinin expression in the forebrain of anuran and urodele amphibians: further support for newly identified subdivisions. , Morona R., J Comp Neurol. November 10, 2008; 511 (2): 187-220.
Islet1 as a marker of subdivisions and cell types in the developing forebrain of Xenopus. , Moreno N ., Neuroscience. July 17, 2008; 154 (4): 1423-39.
Immunohistochemical localization of calbindin-D28k and calretinin in the spinal cord of Xenopus laevis. , Morona R., J Comp Neurol. February 10, 2006; 494 (5): 763-83.
Expression of the genes GAD67 and Distal-less-4 in the forebrain of Xenopus laevis confirms a common pattern in tetrapods. , Brox A ., J Comp Neurol. June 30, 2003; 461 (3): 370-93.
The telencephalon of the frog Xenopus based on calretinin immunostaining and gene expression patterns. , Brox A ., Brain Res Bull. February 1, 2002; 57 (3-4): 381-4.
Patterns of calretinin, calbindin, and tyrosine-hydroxylase expression are consistent with the prosomeric map of the frog diencephalon. , Milán FJ., J Comp Neurol. March 27, 2000; 419 (1): 96-121.
Calbindin immunoreactivity in the auricular lobe and interauricular granular band of the cerebellum in bullfrogs. , Uray NJ., Brain Behav Evol. January 1, 1999; 53 (1): 10-9.
Basal ganglia organization in amphibians: chemoarchitecture. , Marín O., J Comp Neurol. March 16, 1998; 392 (3): 285-312.