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Summary Anatomy Item Literature (3729) Expression Attributions Wiki
XB-ANAT-99

Papers associated with cardiovascular system (and pomc)

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Control of melanoblast differentiation in amphibia by alpha-melanocyte stimulating hormone, a serum melanization factor, and a melanization inhibiting factor., Fukuzawa T., Pigment Cell Res. January 1, 1989; 2 (3): 171-81.


Evidence of direct estrogenic regulation of human corticotropin-releasing hormone gene expression. Potential implications for the sexual dimophism of the stress response and immune/inflammatory reaction., Vamvakopoulos NC., J Clin Invest. October 1, 1993; 92 (4): 1896-902.


The secretion of alpha-MSH from xenopus melanotropes involves calcium influx through omega-conotoxin-sensitive voltage-operated calcium channels., Scheenen WJ., J Neuroendocrinol. August 1, 1994; 6 (4): 457-64.


Identification of two corticotropin-releasing factor receptors from Xenopus laevis with high ligand selectivity: unusual pharmacology of the type 1 receptor., Dautzenberg FM., J Neurochem. October 1, 1997; 69 (4): 1640-9.


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.


Multiple control and dynamic response of the Xenopus melanotrope cell., Kolk SM., Comp Biochem Physiol B Biochem Mol Biol. May 1, 2002; 132 (1): 257-68.


Characterization and functional expression of cDNAs encoding thyrotropin-releasing hormone receptor from Xenopus laevis., Bidaud I., Eur J Biochem. September 1, 2002; 269 (18): 4566-76.


Expression and characterization of the extracellular Ca(2+)-sensing receptor in melanotrope cells of Xenopus laevis., van den Hurk MJ., Endocrinology. June 1, 2003; 144 (6): 2524-33.


Xenopus laevis FoxE1 is primarily expressed in the developing pituitary and thyroid., El-Hodiri HM., Int J Dev Biol. January 1, 2005; 49 (7): 881-4.            


Neuronal, neurohormonal, and autocrine control of Xenopus melanotrope cell activity., Roubos EW., Ann N Y Acad Sci. April 1, 2005; 1040 172-83.


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.


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.      


Evidence for the role of adenosine 5'-triphosphate-binding cassette (ABC)-A1 in the externalization of annexin 1 from pituitary folliculostellate cells and ABCA1-transfected cell models., Omer S., Endocrinology. July 1, 2006; 147 (7): 3219-27.


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.                  


Accessory subunit Ac45 controls the V-ATPase in the regulated secretory pathway., Jansen EJ., Biochim Biophys Acta. December 1, 2008; 1783 (12): 2301-10.


Light modulates the melanophore response to alpha-MSH in Xenopus laevis: an analysis of the signal transduction crosstalk mechanisms involved., Isoldi MC., Gen Comp Endocrinol. January 1, 2010; 165 (1): 104-10.          


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.        


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


Angiogenesis in the intermediate lobe of the pituitary gland alters its structure and function., Tanaka S., Gen Comp Endocrinol. May 1, 2013; 185 10-8.        


Impaired negative feedback and death following acute stress in glucocorticoid receptor knockout Xenopus tropicalis tadpoles., Paul B., Gen Comp Endocrinol. September 15, 2022; 326 114072.      

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