ライフサイエンスコーパス: reproductive system

1 in the axis of hypothalamus-pituitary gland-reproductive system.

2 uronal marker pickpocket (ppk) in the female reproductive system.

3 in whom insulin is a positive signal for the reproductive system.

4 sive fru(+)/ppk(+)-expressing neurons in the reproductive system.

5 re important developmental milestones of the reproductive system.

6 e valuable for monitoring iron effect on the reproductive system.

7 due to elimination of sperm from the female reproductive system.

8 n African great apes to function in the male reproductive system.

9 ic and odorant signals to the neuroendocrine reproductive system.

10 onset of puberty and the development of the reproductive system.

11 ceptor plays an important role in the female reproductive system.

12 red for development and function of the male reproductive system.

13 the development and physiology of the human reproductive system.

14 gonadal steroid actions to regulation of the reproductive system.

15 ty and roles in immune function and the male reproductive system.

16 e exception of the vasculature of the female reproductive system.

17 fects in the development and function of the reproductive system.

18 nd other physiological functions of the male reproductive system.

19 E has an important signaling function in the reproductive system.

20 the liver, serum lipids, psyche/behavior and reproductive system.

21 act in a distinct pathway that involves the reproductive system.

22 reporter is highly expressed in the somatic reproductive system.

23 traction of ovarian muscle in the C. elegans reproductive system.

24 AR(-/-)) and the resulting influences on the reproductive system.

25 he development of the Caenorhabditis elegans reproductive system.

26 e breast, prostate and tissues of the female reproductive system.

27 polycystin-1L1 in the heart and in the male reproductive system.

28 to a wide variety of tissues, including the reproductive system.

29 m while having negligible ER activity on the reproductive system.

30 focus on the roles of PAX8 in cancers of the reproductive system.

31 AR function and the development of the male reproductive system.

32 tral regulation of energy homeostasis or the reproductive system.

33 age is blocked by the presence of the female reproductive system.

34 nges in both the host defense system and the reproductive system.

35 oteins may have functional roles outside the reproductive system.

36 bset of androgen-dependent genes in the male reproductive system.

37 he male in the large accessory glands of the reproductive system.

38 or pathophysiologic processes of the female reproductive system.

39 Its impact reaches far beyond just the reproductive system.

40 during puberty combined with changes in the reproductive system.

41 A muscle hormone controls the mammalian reproductive system.

42 vant to chemical-induced effects on the male reproductive system.

43 relationships between adipose tissue and the reproductive system.

44 ffecting the development and function of the reproductive system.

45 sly to modulate physiological changes in the reproductive system.

46 is the most common malignancy of the female reproductive system.

47 es that target different aspects of the host reproductive system.

48 Rs are those with functions in the mammalian reproductive system.

49 omes an important exocrine gland of the male reproductive system.

50 gation, and some studies have implicated the reproductive system.

51 ntaining many physiological processes in the reproductive system.

52 division-competent cell type outside of the reproductive system.

53 to modulate both behavior and health in the reproductive system.

54 d, RpS5b exhibits enriched expression in the reproductive system.

55 effects of ZIKV infection on the human male reproductive system.

56 ronic fetal hypoxia on the developing female reproductive system.

57 in the uterus and their implications in the reproductive system.

58 eleasing hormone neurons, which regulate the reproductive system.

59 r, plays a physiological role outside of the reproductive system.

60 equently restricted to the nonessential male reproductive system.

61 r example, slightly accelerated aging of the reproductive system.

62 level of an entire organ system such as the reproductive system.

63 elated to hormonal disorders that affect the reproductive system.

64 able in normal tissues except for the female reproductive system.

65 nitially blocks downstream activation of the reproductive system.

66 clease III enzyme, and key micro-RNAs in the reproductive system.

67 tail with its evolving role in the mammalian reproductive system.

68 the role of central leptin signaling in the reproductive system.

69 ovascular, metabolic, endocrine, immune, and reproductive systems.

70 sphorylase was found in the nervous and male reproductive systems.

71 entral nervous system, immune, skeletal, and reproductive systems.

72 nction and regulation of the male and female reproductive systems.

73 symbionts such as Wolbachia that manipulate reproductive systems.

74 system also regulates the cardiovascular and reproductive systems.

75 ponse to short days as well as regress their reproductive systems.

76 of 4.1N deficiency on the development of the reproductive systems.

77 cell types in the mature nervous, immune and reproductive systems.

78 nce of simultaneously active male and female reproductive systems.

79 xpressed between egg-laying and live-bearing reproductive systems.

80 ent and function of both the male and female reproductive systems.

81 egrating beneficial variants through various reproductive systems.

82 ocrine, cardiovascular, gastrointestinal, or reproductive systems.

83 ant weed species, both with stable dioecious reproductive systems.

84 astrointestinal, metabolic, respiratory, and reproductive systems.

85 xtant species, with spectacular diversity in reproductive systems.

86 compared with lineages that have alternative reproductive systems.

87 tional role for UBE2W in the immune and male reproductive systems.

88 nergistic network of the circadian clock and reproductive systems.

89 creased focus on the potential complexity of reproductive systems.

90 % [27/131]), metabolic (15.3% [20/131]), and reproductive system (12.2% [16/131]).

91 tion of women with related grade 2 or higher reproductive system AEs (DPV: 6/72 (8%), placebo: 3/24 (

92 on of the respiratory, gastrointestinal, and reproductive systems already present at birth.

93 Aging affects the reproductive system, although its impact on GnRH neurons

94 ling is also required for development of the reproductive system, although its precise role in this r

95 t feed-back responses specific to the pelvic reproductive system and a priori initiated tumor suppres

96 This study: reviews knowledge of the female reproductive system and bacteriome organ in D. citri; re

97 erone target tissues in the developing fetal reproductive system and be metabolised to other bioactiv

98 describe a neuronal circuit that couples the reproductive system and behavior in adult Caenorhabditis

99 d Prlh mRNA expression and to defects in the reproductive system and brain growth.

100 in the stomach, pancreas, intestine, kidney, reproductive system and central nervous system.

101 ches, we identified a circadian clock in the reproductive system and defined its role in the sperm re

102 processes also move spermatozoa in the human reproductive system and embryos in the uterus.

103 over a novel role for FOS-1 and JUN-1 in the reproductive system and establish C. elegans as a model

104 ube (FT) is an important organ in the female reproductive system and has been implicated as a site of

105 Reproductive system and mental health disorders are comm

106 MI and the height-related connection between reproductive system and muscular-skeletal growth.

107 Human spermatozoa are quiescent in the male reproductive system and must undergo activation once int

108 ombination with the different lay-out of the reproductive system and the tiny spermatozoa lacking a v

109 nt for adult angiogenesis in both the female reproductive system and tumor angiogenesis.

110 not single Cdk8 or Cdk19 KO, had an atrophic reproductive system and were infertile.

111 flies might provide insights into the human reproductive system and, possibly, ovarian cancer.

112 iology of brain, kidney, and respiratory and reproductive systems and often are used as cancer biomar

113 ata as an embodiment of the diversity of ant reproductive systems and suggests previously unknown con

114 ss, esophagus, gills, salivary glands, skin, reproductive system, and acidic glands, nor in periphera

115 ys premature aging of the skin, vasculature, reproductive system, and bone, and those with Bloom synd

116 ribe a population genetic null model of this reproductive system, and derive expressions for the stat

117 has profound effects on the female mammalian reproductive system, and early embryonic development, re

118 ic duct, the embryonic precursor of the male reproductive system, and end with the three-dimensional

119 , skin, oral mucosa, gastrointestinal tract, reproductive system, and liver.

120 the thoracicoabdominal ganglion, the female reproductive system, and mature eggs in the ovary.

121 elicit a marked negative effect on the male reproductive system, and particularly the production of

122 s system, kidney, liver, immune system, male reproductive system, and the developing embryo/fetus.

123 n between introgression and the evolution of reproductive systems, and (2) how mating system can faci

124 o the liver, the immune, endocrine, and male reproductive systems, and the developing fetus and neona

125 ions in males (excluding those affecting the reproductive system) appeared to significantly affect bo

126 omplete sex reversal, with most Fgf9(-/-) XY reproductive systems appearing grossly female at birth.

127 g to age-related deterioration of the female reproductive system are complex, however aberrant protei

128 health outcomes and conditions of the female reproductive system are largely unknown.

129 at most known master regulators(5-13) of the reproductive system are located on chromosome 1.

130 of this systemic regulation of aging by the reproductive system are not understood, and it is unknow

131 ility, its physiological roles in the female reproductive system are still unknown.

132 the rate of congenital malformations of the reproductive system as a surrogate for environmental exp

133 Thus, our results identify the reproductive system as the major SUMO target during post

134 reproduction and prenatal development of the reproductive system as well as the combined effects of t

135 oss the digestive, respiratory, urinary, and reproductive systems as well as the skin.

136 studies the anatomical morphology of the OFM reproductive system at different development periods.

137 cretory, digestive, nervous and sensory, and reproductive systems at a resolution resembling low-magn

138 also reveal physiological differences in the reproductive systems between Troodon, reptiles, and bird

139 In spermatoid cells and/or in the male reproductive system both enzymes are apparently expresse

140 tem from tongue to anus; the male and female reproductive systems; brain and spinal cord; and the cir

141 asing hormone (GnRH) regulates the mammalian reproductive system by binding to its receptor (GnRH1R)

142 th CBNs resulted in the stimulation of plant reproductive system by inducing early flower development

143 normal and abnormal physiology of the human reproductive system by interacting with the endogenous l

144 ored how Wolbachia interacts with the worm's reproductive system by performing a spatial characteriza

145 longitudinal in vivo MRI scans of the murine reproductive system can be extended to future studies th

146 Bacterial communities in the mammalian reproductive system can be rich and diverse, differing i

147 Diversified reproductive systems can be observed in the plant kingdo

148 m separate physiological, morphological, and reproductive systems can interact synergistically to dri

149 sions, and 81 (6.9%) had a family history of reproductive-system cancer.

150 tion between the rs196929 in ERN1 and male's reproductive system cancers (OR = 1.96, 95% C.I. 1.07-3.

151 ) remains highest in the mortality of female reproductive system cancers, while cisplatin (CDDP) resi

152 During the development of the C. elegans reproductive system, cells that give rise to the vulva,

153 The rapid senescence of the human female reproductive system coincides with the age at which, in

154 We find that the reproductive system communicates with the intestine thro

155 The reproductive system complications of genital chlamydial

156 jor public health concern due to the serious reproductive system complications.

157 l an activity-dependent conduit by which the reproductive system continuously licenses adult behavior

158 re and cognitive function and alleviated the reproductive system decline.

159 Instead, later somatic reproductive system defects suggest that proper transcri

160 aining medium as an egg-laying option to the reproductive system depends on the function of a group o

161 -tryptamine (BATT), which is associated with reproductive system development and requires nrps and a

162 ated with Kallmann syndrome, is important in reproductive system development but molecular understand

163 sed male accessory gland protein content and reproductive system development compared to controls.

164 , Fgfs may function in sex determination and reproductive system development in many species.

165 inishing the effect of E2 via AR during male reproductive system development in patients with such mu

166 Here, we examine reproductive system development in the planarian Schmidt

167 act of chronic gestational hypoxia on female reproductive system development is unknown.

168 Some were related to reproductive system development, apoptosis (miRNAs), and

169 ndamental physiological processes, including reproductive system development, muscle regeneration, an

170 chback/Ikaros-like (HIL) genes in C. elegans reproductive system development.

171 for protein processing in limb, cardiac and reproductive system development.

172 genes were primarily linked to neuronal and reproductive system development.

173 suggesting cell-nonautonomous regulation of reproductive system development.

174 activation in different cell contexts during reproductive system development.

175 ation of lag-1 confers robustness to somatic reproductive system development.

176 enriched in cancer, cell death and survival, reproductive system disease, and cellular growth and pro

177 oteins that were related to tumor formation, reproductive system disease, and neurological disease.

178 We describe a lethal combined nervous and reproductive systems disease in three affected siblings

179 1 deficiency leads to a combined nervous and reproductive systems disease, and provides for the first

180 disorders, or reverse associations (risk of reproductive system disorder among women with a psychiat

181 Diagnosis of a reproductive system disorder was associated with a 2- to

182 lence of psychiatric disorders in women with reproductive system disorders and prevalence of reproduc

183 nts the first step to develop drugs treating reproductive system disorders due to a reduced activity

184 Few studies investigated risk of other reproductive system disorders in women with psychiatric

185 roductive system disorders and prevalence of reproductive system disorders in women with psychiatric

186 Psychiatric and reproductive system disorders.

187 , including genetic, neoplastic, nervous and reproductive system disorders.

188 Sperm cells are quiescent in the male reproductive system due to Zn(2+) inhibition of Hv1 chan

189 he spermatheca of the Caenorhabditis elegans reproductive system enables study of the signaling pathw

190 te endocrinological mechanisms of the female reproductive system, especially for the context of COS i

191 role in the development and function of the reproductive system, estrogens have significant anti-inf

192 or postpartum episodes, the effects of other reproductive system events (i.e., puberty, menstrual cyc

193 So what happens when reproductive systems evolve?

194 h on the dialogue between WAT and the female reproductive system, focusing on the impact of this cros

195 e most dense in the sole of the foot and the reproductive system, followed by rhinophores, tentacles,

196 ung genes have a preferential impact on male reproductive system function.

197 We apply the models to datasets of male reproductive system genes in relation to mating systems

198 icle, cristae aorta, anterior aorta) and the reproductive system (genital ganglion, large hermaphrodi

199 of the life history and its role in shaping reproductive systems has remained undocumented.

200 The muscles of the Drosophila female reproductive system have received little attention despi

201 Although cancers of the female reproductive system have understandably been the focus o

202 Interactions between bone and the reproductive system have until now been thought to be li

203 whether non-invasive measures coupled to the reproductive system: high frequency distal body temperat

204 ipocyte hormone, is a trophic factor for the reproductive system; however, it is still unknown whethe

205 tuitary-adrenal (HPA) axis, and the hormonal reproductive system, i.e., the hypothalamic-pituitary-go

206 ein our observations of abnormalities of the reproductive system in 13 female recipients of allogenei

207 The development of the reproductive system in Caenorhabditis elegans is a well-

208 ibition may affect fertility by studying the reproductive system in either pregnant or nonpregnant cy

209 BPA may have toxic effects on the female reproductive system in humans, as it does in animal mode

210 zed rates of congenital malformations of the reproductive system in males (an increase in ASD inciden

211 ed, however, pathological alterations of the reproductive system in patients treated with new generat

212 nic compounds affects the development of the reproductive system in rodent models and humans.

213 suggesting the importance of an intact male reproductive system in the mediation of this inhibition.

214 Mixed reproductive systems in ants include social polymorphism

215 duction and has the potential to affect male reproductive systems in humans and animals, we conclude

216 n, induces the involution of male and female reproductive systems in seasonally reproducing animals.

217 nt a remarkable confluence of multiple mixed reproductive systems in the tropical fire ant, Solenopsi

218 ic response to induced dysbiosis in the male reproductive system, including impaired leptin signallin

219 ariety of developmental abnormalities in the reproductive system, including proliferative germ-cell t

220 of normal human tissues outside of the male reproductive system, including regions of the respirator

221 The secretory glands of the male reproductive system, including the prostate and seminal

222 t enrichment in diseases related to the male reproductive system, indicating strong sexual selection.

223 Here we demonstrate that signals from the reproductive system influence the lifespan of the nemato

224 and indicates that future work on stress and reproductive system interactions must include investigat

225 show that this dependence of behavior on the reproductive system is due to feedback from the vulva mu

226 digm contends that the female pattern of the reproductive system is established by default because th

227 importance of PAX8 in the development of the reproductive system is highlighted by abnormalities obse

228 lly regulated cytokine produced in the human reproductive system, is protective against T. vaginalis

229 f the zygote is difficult because its unique reproductive system limits the accessibility of the zygo

230 It is also toxic to the brain, reproductive system, liver, and kidney.

231 Female reproductive system malignancies including breast cancer

232 e of estrogen on the development of the male reproductive system may be interrupted in a subset of pa

233 ot known whether other aspects of the female reproductive system may be similarly affected.

234 Bacteria harbored in the male reproductive system may influence reproductive function

235 gain) and adverse events associated with the reproductive system (mostly erectile dysfunction) were r

236 mbryonic fibroblast cells and in urinary and reproductive system mouse tissues.

237 tive contributions of the components of male reproductive system (MRS) during early male-to-female ZI

238 D exposure include alterations in immune and reproductive systems, neurotoxic effects, and endocrine

239 At present, the role of BMPs in the reproductive system of any species is poorly understood.

240 necessary for the maintenance of the female reproductive system of higher animals.

241 Adverse outcomes detected in the reproductive system of the offspring in pre-puberty and

242 effects of hazelnut supplemented diet on the reproductive system of young and old male rats were inve

243 of estrogen contribute to disruption of the reproductive systems of animals in the wild, and to the

244 ipolar illness and the effects of the female reproductive system on the course and treatment of the i

245 tases of soft tissue or bone sarcomas to the reproductive system or breasts are reported.

246 transcripts of basonuclin2 in tissues of the reproductive system (ovary and testis) and also in kidne

247 the capabilities of our method by analysing reproductive system pathologies and nervous system morph

248 Reproductive system phenotypes range from testicular hyp

249 The persistence of Zika virus in the male reproductive system poses a risk of sexual transmission.

250 Species employing mixed reproductive systems present a unique opportunity to exp

251 O) as a disease affecting the male or female reproductive system, presents a global challenge due to

252 ibe a novel, unique VEGF-C form in the human reproductive system produced via cleavage by kallikrein-

253 However, the female reproductive system remained intact, indicating a typica

254 togenesis, a fundamental process in the male reproductive system, requires a series of tightly contro

255 In the Drosophila reproductive system (RS), this fusion unites the gonad a

256 erone synthesis in rodents, whereas the male reproductive system seems to adapt to exposure to modera

257 Mixed reproductive systems such as those described here may be

258 d then points toward extreme values when the reproductive system tends toward strict clonality.

259 ism may contribute to the suppression of the reproductive system that is exploited in the major clini

260 pressured the evolution of the group toward reproductive systems that favored outcrossing.

261 When injected in ewes with a quiescent reproductive system, the best compound of our series ind

262 angiogenesis, as in tumors or in the female reproductive system, the endothelium of a subset of new

263 g considered an accessory tubule of the male reproductive system, the epididymis is proving to be a k

264 The two parts of the Caenorhabditis elegans reproductive system, the germ cells and the somatic repr

265 s central regulator of the hematopoietic and reproductive systems, the Kit receptor tyrosine kinase (

266 developmental and functional defects in the reproductive system; the development of the gonad is del

267 these pathogens also have a tropism for the reproductive system, thereby increasing the risk of repr

268 is to date of the gene responses in wildlife reproductive system to radiation.

269 key metabolic tissue to communicate with the reproductive system to regulate oocyte quality and the r

270 To identify genes that act directly in the reproductive system to regulate somatic proteostasis, we

271 icipating in altering the sensitivity of the reproductive system to stress in these individuals.

272 a failure to look beyond women's sexual and reproductive systems to adequately consider their broade

273 The neuro- and reproductive system toxicity of CS2 has been documented

274 The total number of reproductive system tumors, pituitary tumors, and metast

275 in the anatomy and physiology of the female reproductive system underlie the origins and diversifica

276 ural and physiological changes in the female reproductive system underlie the origins of pregnancy in

277 In double fertilization, a reproductive system unique to flowering plants, two immo

278 external and internal anatomy (excluding the reproductive system) using micro-computed tomography (mi

279 Ants exhibit a striking diversity of reproductive systems, varying in traits such as the numb

280 Phenotypic follow-up of the female reproductive system was performed on an additional cohor

281 for GA in the genetic regulation of the male reproductive system, we additionally show that DELLA dow

282 ted that symbionts were abundant in the male reproductive system, which demonstrates a natural route

283 ic endocrine interactions of the nervous and reproductive systems, which coordinate the hormonal and

284 eract and govern the process of aging in the reproductive system will help us to develop strategies f

285 lly enables the integration of cues from the reproductive system with central DAF-16-activation pathw

286 trong tissue tropism for lymphoreticular and reproductive systems with an intracellular lifestyle tha

287 nation may drive adaptive diversification of reproductive systems within plant lineages.

288 clearly implicated in the diversification of reproductive systems within Schiedea.