ライフサイエンスコーパス: posterior pituitary

1 ion of K(+) channels in the neurohypophysis (posterior pituitary).

2 terminals of the mammalian neurohypophysis (posterior pituitary).

3 tuberal infundibulum - the precursor of the posterior pituitary.

4 massive release of vasopressin (VP) from the posterior pituitary.

5 ry cells (MNCs) and hormone release from the posterior pituitary.

6 ts associated with an undescended or ectopic posterior pituitary.

7 in synthesis and control of release from the posterior pituitary.

8 to modulate neuropeptide secretion from the posterior pituitary.

9 bodies, axons, and axon terminals within the posterior pituitary.

10 e, Hlf was detected in both the anterior and posterior pituitary.

11 e in unstimulated nerve terminals within the posterior pituitary.

12 gions and release OT into the blood from the posterior pituitary.

13 n-ir were seen in the median eminence or the posterior pituitary.

14 ssin in the SON with increased levels in the posterior pituitary.

15 ricular nucleus, amygdala, habenula, and the posterior pituitary.

16 essin in the SON and decreased levels in the posterior pituitary.

17 the anterior pituitary or released from the posterior pituitary.

18 ellular axons in the median eminence and the posterior pituitary.

19 ve terminals in slices prepared from the rat posterior pituitary.

20 or optic nerve hypoplasia, absent or ectopic posterior pituitary, absent pituitary infundibulum, abse

21 entral AVP release through PVN inputs to the posterior pituitary and/or the amygdala and 2) acute res

22 roendocrine with projections directly to the posterior pituitary, and parvicellular neuroendocrine wi

23 ctivity, dense-core vesicle release from the posterior pituitary, and plasma hormone levels all begin

24 pinephrine cells of the adrenal medulla, the posterior pituitary, and the pineal gland.

25 rons that project to the median eminence and posterior pituitary are located.

26 sopressin and its receptors, the role of the posterior pituitary as a storage site, and the determina

27 uding absent pituitary infundibulum, ectopic posterior pituitary bright spot, and absent posterior pi

28 posterior pituitary bright spot, and absent posterior pituitary bright spot, occurred in 33 children

29 Given the neuroendocrine functions of the posterior pituitary, changes in Syt IV levels could be i

30 ocin, a neuropeptide hormone secreted by the posterior pituitary, demonstrated that sildenafil increa

31 essential role for Lhx2 in the regulation of posterior pituitary development and suggests a mechanism

32 results in a decrease in median eminence and posterior pituitary dopamine (DA) concentrations.

33 etory pathway as VP and is secreted from the posterior pituitary following a physiological stimulus.

34 aventricular nuclei and is released from the posterior pituitary gland into the circulation to trigge

35 niopharyngioma, Rathke's cleft cyst, ectopic posterior pituitary gland), 5.melanin (metastatic melano

36 functions to hormones from the anterior and posterior pituitary gland, mainly in the regulation of e

37 ed at sites involved in AVP release from the posterior pituitary gland, plays a role in the hypertens

38 ricose fibres via the median eminence to the posterior pituitary gland.

39 arked reduction in IL-6-like material in the posterior pituitary gland.

40 xpression of ProDYN in both the anterior and posterior pituitary glands was much lower than that in t

41 uced in the hypothalamus and released by the posterior pituitary, has well-known actions in parturiti

42 transgene hGH mRNA expression, and depleted posterior pituitary hGH and VP stores in parallel.

43 artial or complete deficiency of anterior or posterior pituitary hormone production leads to central

44 ut the neurohypophyseal tract and within the posterior pituitary in both pars intermedia and pars ner

45 The posterior pituitary lobe and stalk, which normally arise

46 logical features of the infundibulum and the posterior pituitary lobe.

47 factors that regulate the development of the posterior pituitary lobe.

48 of the pituitary stalk and both anterior and posterior pituitary lobes.

49 ion is likely to inhibit impulse activity in posterior pituitary nerve terminals and this may explain

50 IV on both micro- and dense-core vesicles in posterior pituitary nerve terminals in mice.

51 In posterior pituitary nerve terminals, nitric oxide enhanc

52 e antidiuretic hormone vasopressin (VP) from posterior pituitary nerve terminals.

53 onsequence of a loss of secretion of VP from posterior pituitary nerve terminals.

54 e report single vesicle capacitance steps in posterior pituitary nerve terminals.

55 nductance Ca2+-activated K+ (BK) channels in posterior pituitary nerve terminals.

56 s harboring hormones producing cells and the posterior pituitary/neurohypophysis, which relays the pa

57 halamic-mediated neurosecretory anterior and posterior pituitary outputs.

58 To protect the body from osmotic stress, posterior pituitary-projecting, vasopressin-secreting ne

59 lation (reduction of 40 mOsm/kg) of isolated posterior pituitaries resulted in preferential increases

60 rginine-vasopressin (AVP), secreted from the posterior pituitary, stimulates glucagon secretion.

61 The posterior pituitary was densely packed with large CARTir

62 y, including the anterior, intermediate, and posterior pituitary, was also missing.

63 lative vasopressin levels in the SON and the posterior pituitary when exposed to varying periods of d

64 rones in the rat hypothalamus project to the posterior pituitary, where they secrete their products i