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76 related items for PubMed ID: 22678695

  • 1. Pattern of calbindin-D28k and calretinin immunoreactivity in the brain of Xenopus laevis during embryonic and larval development.
    Morona R, González A.
    J Comp Neurol; 2013 Jan 01; 521(1):79-108. PubMed ID: 22678695
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  • 2. Regional distribution of calretinin and calbindin-D28k expression in the brain of the urodele amphibian Pleurodeles waltl during embryonic and larval development.
    Joven A, Morona R, Moreno N, González A.
    Brain Struct Funct; 2013 Jul 01; 218(4):969-1003. PubMed ID: 22843286
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  • 8. Immunohistochemical study of the distribution of calcium binding proteins in the brain of a chondrostean (Acipenser baeri).
    Graña P, Huesa G, Anadón R, Yáñez J.
    J Comp Neurol; 2012 Jul 01; 520(10):2086-122. PubMed ID: 22173872
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  • 11. Calbindin-D28k and calretinin as markers of retinal neurons in the anuran amphibian Rana perezi.
    Morona R, Moreno N, Lopez JM, Muñoz M, Domínguez L, González A.
    Brain Res Bull; 2008 Mar 18; 75(2-4):379-83. PubMed ID: 18331902
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  • 12. Choline acetyltransferase immunoreactivity in the developing brain of Xenopus laevis.
    López JM, Smeets WJ, González A.
    J Comp Neurol; 2002 Nov 25; 453(4):418-34. PubMed ID: 12389211
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  • 13. Localization of calbindin-d28k and calretinin in the brain of dermophis mexicanus (amphibia: gymnophiona) and its bearing on the interpretation of newly recognized neuroanatomical regions.
    Morona R, López JM, González A.
    Brain Behav Evol; 2011 Nov 25; 77(4):231-69. PubMed ID: 21860230
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  • 14. Sonic hedgehog expression during Xenopus laevis forebrain development.
    Domínguez L, González A, Moreno N.
    Brain Res; 2010 Aug 06; 1347():19-32. PubMed ID: 20540934
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  • 15. Spatiotemporal sequence of appearance of NPFF-immunoreactive structures in the developing central nervous system of Xenopus laevis.
    López JM, Moreno N, Morona R, Muñoz M, González A.
    Peptides; 2006 May 06; 27(5):1036-53. PubMed ID: 16504341
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  • 16. Characterization of the hypothalamus of Xenopus laevis during development. II. The basal regions.
    Domínguez L, González A, Moreno N.
    J Comp Neurol; 2014 Apr 01; 522(5):1102-31. PubMed ID: 24122702
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  • 17. Immunohistochemical and hodological characterization of calbindin-D28k-containing neurons in the spinal cord of the turtle, Pseudemys scripta elegans.
    Morona R, López JM, Domínguez L, González A.
    Microsc Res Tech; 2007 Feb 01; 70(2):101-18. PubMed ID: 17203484
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  • 18. Patterns of calretinin, calbindin, and tyrosine-hydroxylase expression are consistent with the prosomeric map of the frog diencephalon.
    Milán FJ, Puelles L.
    J Comp Neurol; 2000 Mar 27; 419(1):96-121. PubMed ID: 10717642
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  • 19. Calcium-binding proteins, neuronal nitric oxide synthase, and GABA help to distinguish different pallial areas in the developing and adult chicken. I. Hippocampal formation and hyperpallium.
    Suárez J, Dávila JC, Real MA, Guirado S, Medina L.
    J Comp Neurol; 2006 Aug 10; 497(5):751-71. PubMed ID: 16786551
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  • 20. Influence of the "open field" exposure on calbindin D28K, calretinin, and parvalbumin containing cells in the rat midbrain - developmental study.
    Klejbor I, Ludkiewicz B, Domaradzka-Pytel B, Spodnik JH, Dziewiatkowski J, Moryś J.
    J Physiol Pharmacol; 2006 Mar 10; 57(1):149-64. PubMed ID: 16601322
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