ライフサイエンスコーパス: endocrine system

1 (e.g., sex differences in regulation by the endocrine system).

2 abolites and transcripts of the vitamin D(3) endocrine system.

3 skeletal muscle, the heart, the eye, and the endocrine system.

4 in the interaction between the brain and the endocrine system.

5 many hormone-induced genes in the vertebrate endocrine system.

6 t of T-cells and the regulation of the neuro-endocrine system.

7 ies human paediatric disorders involving the endocrine system.

8 to human health through their effects on the endocrine system.

9 cus on u-opioid receptor networks within the endocrine system.

10 ffers from the well-characterised vertebrate endocrine system.

11 es, eyes, heart, central nervous system, and endocrine system.

12 s mimic host hormones to manipulate the host endocrine system.

13 the commonly observed cancers affecting the endocrine system.

14 nition of the effects of opioid drugs on the endocrine system.

15 oxifen injection on the testis and the wider endocrine system.

16 crine disrupting chemicals in the developing endocrine system.

17 any years later, most commonly affecting the endocrine system.

18 high-resolution cellular map of the diffuse endocrine system.

19 eceptors (ERs) and alter the function of the endocrine system.

20 , and joints are affected by diseases of the endocrine system.

21 mitting seasonal temporal information to the endocrine system.

22 es links between the immune and reproductive endocrine systems.

23 n identified as a regulator of metabolic and endocrine systems.

24 systems including metabolism, immunity, and endocrine systems.

25 example of interplay between the immune and endocrine systems.

26 ules in many organs, including the brain and endocrine systems.

27 identify unifying design principles in human endocrine systems.

28 ween the psyche and the nervous, immune, and endocrine systems.

29 imals exhibit seasonal variation in multiple endocrine systems.

30 olic homeostasis by influencing behavior and endocrine systems.

31 hormones and neuromodulators in nervous and endocrine systems.

32 changes are orchestrated by the nervous and endocrine systems.

33 , gastrointestinal, reproductive, liver, and endocrine systems.

34 may be associated with obesity by disrupting endocrine systems.

35 characterised adverse effects in kidney and endocrine systems.

36 ariety of signaling roles in the nervous and endocrine systems.

37 ecting the cardiovascular, neurological, and endocrine systems.

38 ons of BRS-3 with stress- and growth-related endocrine systems.

39 y and vascular tone through renal, neural or endocrine systems.

40 proposed to function in innate immunity and endocrine systems.

41 thalamic-pituitary-peripheral gland (H-P-PG) endocrine system, a complex network of specialized tissu

42 the most frequently occurring cancer of the endocrine system, accounting for 70% of deaths due to en

43 rowing evidence suggests that the FGF-Klotho endocrine system also has a crucial role in the pathophy

44 elating to hematopoiesis, tissue morphology, endocrine system and connective tissue development and f

45 n changes.Harmful chemicals that disrupt the endocrine system and hormone regulation have been associ

46 e diverse roles played by macrophages in the endocrine system and identify potential targets for phar

47 has been recognized as a perturbation of the endocrine system and of cell cycle progression.

48 asticizers, alter the normal function of the endocrine system and pose a significant hazard to human

49 -2 pathobiology, the status of the vitamin D endocrine system and vitamin D-modulated genes in lung c

50 uires precise coordination between different endocrine systems and multiple organs.

51 mproved screening for chemical disruption to endocrine systems and proactive prevention.

52 t1 in mediating these changes in tissues and endocrine systems and propose that Sirt1 regulates calor

53 This review discusses circadian control of endocrine systems and the consequences of distorting rhy

54 nsiderable paucity in our knowledge of these endocrine systems and the limited ability to ascertain r

55 addition to an involvement of the immune and endocrine systems and/or heightened tumour predispositio

56 s mechanistic insight into the vitamin D-PTH endocrine system, and further substantiates the role of

57 osterone, parathyroid hormone, the vitamin D endocrine system, and growth factors are responsible for

58 olone on clinical outcome, body composition, endocrine system, and inflammation during the acute phas

59 ny organ system (most often the skin, colon, endocrine system, and liver); and appear to mimic classi

60 ions accumulate iron that damages the liver, endocrine system, and most importantly the heart.

61 Rhythms are intrinsic to endocrine systems, and disruption of these hormone oscil

62 The endocrine system appears to be particularly vulnerable t

63 Thus this endocrine system appears to influence the rate at which

64 vironment, those with adverse effects on the endocrine system are referred to as endocrine-disrupting

65 Endocrine systems are another established category, and

66 Anabolic steroid abuse adversely affects the endocrine system, blood lipids, and the liver, but renal

67 through its reciprocal relationship with the endocrine system, but this hypothesis is underexplored.

68 t multiple systems, including the immune and endocrine systems, but the effects of stress on cancer g

69 pes of hugin neurons connect chemosensory to endocrine system by combinations of synaptic and peptide

70 e, respiratory, gastrointestinal, liver, and endocrine systems, by influencing cellular signaling pat

71 immune system), and successfully reproduce (endocrine system) can have significant individual- and p

72 tive-skin-cervical cancers, reproductive and endocrine systems cancers, and brain and androgen-associ

73 ociated alterations of the hormone-secreting endocrine system cause organ dysfunction and disease sta

74 ain axis, cholinergic neurotransmission, and endocrine system, causing paralytic ileus, hyperkalemia,

75 Among these were genes involved in the endocrine system, cell signaling, immune function and in

76 s were involved in pathways enriched for the endocrine system, cellular community, neurodevelopment,

77 The alimentary tract contains a diffuse endocrine system comprising enteroendocrine cells that s

78 The complexity of neuroimmune-endocrine systems, conflicting study results and dual me

79 ine whether differences in the vitamin D-PTH endocrine system contribute to racial disparities in car

80 lowing seawater (SW) transfer, and (2) which endocrine systems contribute to osmoregulatory responses

81 gens and GPER are critical components of the endocrine system controlling the onset of OM in zebrafis

82 The endocrine system controls cell growth and metabolism by

83 understanding on how the neuromodulatory or endocrine system controls reproductive physiology and be

84 The nervous and endocrine systems coordinately monitor and regulate nutr

85 nt with a model of how the vertebrate H-P-PG endocrine system could have emerged in relatively few st

86 c alterations involved genes associated with endocrine system development and function, tissue develo

87 ous system diseases, immune system diseases, endocrine system diseases, gastrointestinal diseases, an

88 umerous genes, many of which are involved in endocrine system disorders and the inflammatory response

89 mber of plasma proteins that were related to endocrine system disorders in the FLX and FLX plus EE2 g

90 haracterizing the function of the Drosophila endocrine system during larval development.

91 s in the brain interact with the nervous and endocrine systems during development, and are crucial fo

92 The endocrine system dynamically controls tissue differentia

93 studies provide unique insights into how the endocrine system dynamically regulates aspects of the hu

94 As the endocrine system facilitates physiological adaptations t

95 Together, this constitutes a complete endocrine system; feedback regulation involving amino ac

96 so aid investigations into the mechanisms of endocrine system function and disorders.

97 hormones and 4-nonylphenol, that can disrupt endocrine system function in aquatic organisms.

98 hese include skeletal muscle, the immune and endocrine systems, gastrointestinal as well as cognitive

99 ion and absorption kinetics and responses in endocrine systems, gene expression, metabolite pools and

100 bservational data suggest that the vitamin D endocrine system has a wide spectrum of skeletal and ext

101 Although a defective vitamin D endocrine system has been widely suspected to be associa

102 as one of the most prevalent malignancies of endocrine system, has raised public concern and more res

103 th components of the endocrine and the neuro-endocrine system have also been considered in this revie

104 , including digestion, extracellular matrix, endocrine system, immunity and cholesterol metabolism.

105 gests that Ephb6 has a target in the nervous/endocrine system in addition to VSMC, regulating a testo

106 ine cells throughout the brain and dispersed endocrine system in both vertebrates and invertebrates.

107 Little is known about the role of the endocrine system in financial risk taking.

108 ancers are the most common malignancy of the endocrine system in humans.

109 Alterations of the endocrine system in patients following Roux-en-Y gastric

110 understand the significance of the vitamin D endocrine system in SARS-CoV-2 pathobiology, computation

111 ene expression by the dysregulated vitamin D endocrine system in SARS-CoV-2-infected cells.

112 ormone-producing cells represent the largest endocrine system in the body, but remarkably little is k

113 physiological relevance of the vitamin D(3) endocrine system in the developing gland.

114 ggesting an important role for the vitamin D endocrine system in the generation of Th2-driven inflamm

115 idence to implicate a dysregulated vitamin D endocrine system in the pathobiology of SARS-CoV-2 infec

116 physiological roles played by the vitamin D endocrine system in the regulation of normal and abnorma

117 vidence to support the link, the role of the endocrine system in vestibular function and disease is a

118 ts indicate that X-LAG is a TADopathy of the endocrine system in which Xq26.3 duplications disrupt th

119 ld consider mineral homeostasis and deranged endocrine systems in adults within a context of 2 clinic

120 s attributable not only to the modulation of endocrine systems in the periphery but also to the CNS e

121 identifies the fundamentals of the vitamin D endocrine system, including its potential for contributi

122 e central and autonomic nervous, immune, and endocrine systems, including gut microbiota imbalances,

123 nflammatory functions, as well as changes in endocrine systems, including in aldosterone function and

124 This skin neuro-immuno-endocrine system is compartmentalized through the format

125 The gut endocrine system is emerging as a central player in the

126 The vitamin D endocrine system is essential for calcium and phosphate

127 The endocrine system is highly sensitive to endocrine-disrup

128 The vitamin D-endocrine system is thought to play a role in physiologi

129 ry cell diversity is achieved in the diffuse endocrine system is through cell-cell signaling interact

130 nd interfere with the normal function of the endocrine system leading to adverse health effects in hu

131 on central nervous system, which alters the endocrine system, leading to imbalance in cortisol secre

132 regard, the neural mechanisms by which this endocrine system may impact stress-related pathologies a

133 Disorders of the endocrine system may present with various ophthalmic sig

134 The endocrine system mediates long-range peptide hormone sig

135 target gene expression, suggesting that this endocrine system mediates the genetic differences.

136 ivers of disease, such as alterations of the endocrine system, metabolism, and aberrant control of de

137 * The status of the endocrine system must always be considered in evaluation

138 To maintain body homeostasis, endocrine systems must detect and integrate blood-borne

139 d indicates for the first time an additional endocrine system of cardiac origin which is activated in

140 , and fenoxycarb was used for disrupting the endocrine system of D. magna.

141 opmental-genetic steps that shape the entero-endocrine system of Drosophila melanogaster from the emb

142 and is produced by a segmentally distributed endocrine system of epitracheal glands (EGs).

143 wn to disrupt the behavior, development, and endocrine system of other fish species.

144 In many animals, the diffuse endocrine system of the gut is the largest endocrine tis

145 they concentrate in tissues and disrupt the endocrine systems of species throughout the ecosphere.

146 The endocrine system participates in regulating macrophage m

147 tabolism, lipid metabolism and digestive and endocrine system pathways in the domesticated fish relat

148 The vitamin D endocrine system plays critical although poorly understo

149 c information relating to cardiovascular and endocrine systems, refining methodology for modeling dim

150 The vitamin D endocrine system regulates mineral homeostasis through i

151 How hypocretin modulates the endocrine system remains an open question.

152 The infundibulum links the nervous and endocrine systems, serving as a crucial integrating cent

153 beta-arrestin(s) is novel, especially in the endocrine system, since proteolytic and/or splice varian

154 most commonly in the gastrointestinal tract, endocrine system, skin, and liver.

155 Collectively, these proteins form a unique endocrine system that governs multiple metabolic process

156 ffects to the testis and to the reproductive endocrine system that persisted long-term.

157 ion signals between the immune, nervous, and endocrine systems that are intended to maintain homeosta

158 ist of ~95% of all known animals and possess endocrine systems that can significantly differ from tha

159 cerebral cortex, to influence autonomic and endocrine systems that control internal organs.

160 occur in fetomaternal immune, metabolic, and endocrine systems that culminate in birth.

161 ulatory effects on the secretory activity of endocrine systems that might be related to TSD-induced c

162 development of skin, bone, the brain and the endocrine system; therefore, there is a strong scientifi

163 This endocrine system thus serves a critical evolutionary fun

164 n, primarily involving the heart, liver, and endocrine system; thus, regularly transfused patients re

165 gustatory signals recruit nutrient-dependent endocrine systems to coordinate metabolic homeostasis, t

166 pituitary corticotropin, is one of the first endocrine systems to develop during fetal life, probably

167 e activates the autonomic nervous system and endocrine systems to increase performance during environ

168 gut microbiota and the nervous, immune, and endocrine systems, together linking brain and gut functi

169 ly and is known to severely affect the human endocrine system upon consumption.

170 om its origins in how the brain controls the endocrine system via the hypothalamus and pituitary glan

171 wn to be overcome by the perturbation of the endocrine system, we hypothesized that sublethal doses o

172 ponents of several osmoregulation-associated endocrine systems were affected (e.g., corticosteroid re

173 genes, as potentially modulated by vitamin D endocrine system, were identified in transcriptomic data

174 actory system is intricately linked with the endocrine system where it may serve as a detector of the

175 re coordinated by the cutaneous neuro-immuno-endocrine system, which counteracts the action of extern

176 The immunologic and endocrine systems, which are in part responsible for org

177 control of biological rhythms, including the endocrine system with time-varying hormone secretion.