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1 resemble the vertebrate olfactory organ and adenohypophysis.
2 suppression of release of prolactin from the adenohypophysis.
3 sensory structures, the ear, nose, lens, and adenohypophysis.
4 tiated cells from the pars intermedia of the adenohypophysis.
5 nly in the expected tissues, but also in the adenohypophysis.
6 prets these Hh signals within the developing adenohypophysis.
7 consistent with cell types generated by the adenohypophysis, a source of endocrine tissue in vertebr
8 f development for induction of the zebrafish adenohypophysis, a time when shh is expressed only in ne
9 r-most placode generates the endocrine lobe [adenohypophysis (ADH)] of the pituitary, a master gland
10 lim3, expansion of nk2.2 into the posterior adenohypophysis, and an increase in Prolactin- and Somat
12 populations, tshbetaa cells in the anterior adenohypophysis, and tshbetab cells near to the pituitar
14 at appears to reflect a dominant side of the adenohypophysis, characterized by increased functional a
16 ne-secreting lobe of the pituitary gland, or adenohypophysis, forms from cells at the anterior margin
19 specific area of the pituitary gland (i.e., adenohypophysis) known to secrete neuropeptides and othe
20 ved features, including the olfactory organ, adenohypophysis, lens, inner ear, lateral line and crani
23 defects, ranging from a complete loss of the adenohypophysis (smu/smo and yot/gli2 mutants) to more s
25 tions of ascorbic acid (AA) are found in the adenohypophysis, we hypothesized that it might have an a
26 gli1 expression is maintained throughout the adenohypophysis while gli2a and gli2b expression are res