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Summary Anatomy Item Literature (762) Expression Attributions Wiki
XB-ANAT-18

Papers associated with hypophysis (and crh)

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cyp21a2 Knockout Tadpoles Survive Metamorphosis Despite Low Corticosterone., Paul B., Endocrinology. November 14, 2022; 164 (1):               

Thyroid Disrupting Chemicals in Mixture Perturb Thymocyte Differentiation in Xenopus laevis Tadpoles., McGuire CC., Toxicol Sci. May 27, 2021; 181 (2): 262-272.

Pituitary cell translation and secretory capacities are enhanced cell autonomously by the transcription factor Creb3l2., Khetchoumian K., Nat Commun. September 3, 2019; 10 (1): 3960.                                  

Digital dissection of the model organism Xenopus laevis using contrast-enhanced computed tomography., Porro LB., J Anat. August 1, 2017; 231 (2): 169-191.                        

The role of brain-derived neurotrophic factor in the regulation of cell growth and gene expression in melanotrope cells of Xenopus laevis., Jenks BG., Gen Comp Endocrinol. July 1, 2012; 177 (3): 315-21.      

The origins and evolution of vertebrate metamorphosis., Laudet V., Curr Biol. September 27, 2011; 21 (18): R726-37.            

Plasticity of melanotrope cell regulations in Xenopus laevis., Roubos EW., Eur J Neurosci. December 1, 2010; 32 (12): 2082-6.    

Ultrastructural and neurochemical architecture of the pituitary neural lobe of Xenopus laevis., van Wijk DC., Gen Comp Endocrinol. September 1, 2010; 168 (2): 293-301.        

About a snail, a toad, and rodents: animal models for adaptation research., Roubos EW., Front Endocrinol (Lausanne). January 1, 2010; 1 4.      

Teratogenic effects of chronic treatment with corticosterone on tadpoles of Xenopus laevis., Lorenz C., Ann N Y Acad Sci. April 1, 2009; 1163 454-6.

Brain distribution and evidence for both central and neurohormonal actions of cocaine- and amphetamine-regulated transcript peptide in Xenopus laevis., Roubos EW., J Comp Neurol. April 1, 2008; 507 (4): 1622-38.                  

Localisation and physiological regulation of corticotrophin-releasing factor receptor 1 mRNA in the Xenopus laevis brain and pituitary gland., Calle M., J Neuroendocrinol. October 1, 2006; 18 (10): 797-805.

Effect of starvation on Fos and neuropeptide immunoreactivities in the brain and pituitary gland of Xenopus laevis., Calle M., Gen Comp Endocrinol. July 1, 2006; 147 (3): 237-46.        

Widespread tissue distribution and diverse functions of corticotropin-releasing factor and related peptides., Boorse GC., Gen Comp Endocrinol. March 1, 2006; 146 (1): 9-18.      

Urocortins of the South African clawed frog, Xenopus laevis: conservation of structure and function in tetrapod evolution., Boorse GC., Endocrinology. November 1, 2005; 146 (11): 4851-60.

Evidence that urocortin I acts as a neurohormone to stimulate alpha MSH release in the toad Xenopus laevis., Calle M., Dev Biol. April 8, 2005; 1040 (1-2): 14-28.              

Regulation of pituitary thyrotropin gene expression during Xenopus metamorphosis: negative feedback is functional throughout metamorphosis., Manzon RG., J Endocrinol. August 1, 2004; 182 (2): 273-85.

Expression and hypophysiotropic actions of corticotropin-releasing factor in Xenopus laevis., Boorse GC., Gen Comp Endocrinol. July 1, 2004; 137 (3): 272-82.

Corticotropin-releasing hormone-binding protein: biochemistry and function from fishes to mammals., Seasholtz AF., J Endocrinol. October 1, 2002; 175 (1): 89-97.

Biochemical characterization and expression analysis of the Xenopus laevis corticotropin-releasing hormone binding protein., Valverde RA., Mol Cell Endocrinol. February 28, 2001; 173 (1-2): 29-40.

Characterization of three corticotropin-releasing factor receptors in catfish: a novel third receptor is predominantly expressed in pituitary and urophysis., Arai M., Endocrinology. January 1, 2001; 142 (1): 446-54.

Structure and function of the ovine type 1 corticotropin releasing factor receptor (CRF1) and a carboxyl-terminal variant., Myers DA., Mol Cell Endocrinol. September 25, 1998; 144 (1-2): 21-35.

Background adaptation by Xenopus laevis: a model for studying neuronal information processing in the pituitary pars intermedia., Roubos EW., Comp Biochem Physiol A Physiol. November 1, 1997; 118 (3): 533-50.

Immunohistochemical studies on the development of the hypothalamo-hypophysial system in Xenopus laevis., Ogawa K., Anat Rec. February 1, 1995; 241 (2): 244-54.

Spontaneous cytosolic calcium pulsing detected in Xenopus melanotrophs: modulation by secreto-inhibitory and stimulant ligands., Shibuya I., Endocrinology. May 1, 1993; 132 (5): 2166-75.

Characterization of the genomic corticotropin-releasing factor (CRF) gene from Xenopus laevis: two members of the CRF family exist in amphibians., Stenzel-Poore MP., Mol Endocrinol. October 1, 1992; 6 (10): 1716-24.

The CRF-related peptide sauvagine stimulates and the GABAB receptor agonist baclofen inhibits cyclic-AMP production in melanotrope cells of Xenopus laevis., Jenks BG., Life Sci. January 1, 1991; 48 (17): 1633-7.

Immunocytochemical localization and spatial relation to the adenohypophysis of a somatostatin-like and a corticotropin-releasing factor-like peptide in the brain of four amphibian species., Olivereau M., Cell Tissue Res. February 1, 1987; 247 (2): 317-24.

Regulation of MSH release from the neurointermediate lobe of Xenopus laevis by CRF-like peptides., Verburg-Van Kemenade BM., Peptides. January 1, 1987; 8 (6): 1093-100.

Evidence for corticotropin releasing factor (CRF) synthesis in the preoptic nucleus of Xenopus laevis tadpoles: a preliminary report based on lesion experiments., Notenboom CD., Cell Tissue Res. June 11, 1976; 169 (1): 23-31.

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