ライフサイエンスコーパス: reproductive behavior

1 vironmental influences on GnRH signaling and reproductive behavior.

2 ecting female physiology and, in some cases, reproductive behavior.

3 e) steroid actions on neuronal mechanisms of reproductive behavior.

4 ction because it indicates the covariance of reproductive behavior.

5 d response to semiochemicals, and changes in reproductive behavior.

6 he inability of prepubertal males to display reproductive behavior.

7 ase and partially inhibits hormone-dependent reproductive behavior.

8 for GnRH influence on chemosensory-dependent reproductive behavior.

9 oid activation of the CNS to regulate female reproductive behavior.

10 the regulation of gonadotropin secretion and reproductive behavior.

11 onments and human sociocultural practices on reproductive behavior.

12 s known to be essential for vocalization and reproductive behavior.

13 o other livestock, due to the very different reproductive behavior.

14 e speculated that CO may play a role in male reproductive behavior.

15 environmental effects on estrogen-controlled reproductive behavior.

16 g that this gene is required for normal male reproductive behavior.

17 for the communication that is essential for reproductive behavior.

18 s well as permanent deficits in shoaling and reproductive behavior.

19 ing to emerging understanding of its role in reproductive behavior.

20 mete production capacity in order to analyze reproductive behavior.

21 egg deposition are primarily due to altered reproductive behavior.

22 al limbic regions involved in the control of reproductive behavior.

23 RNAs are essential for neural patterning and reproductive behavior.

24 , mediating timely neuroendocrine and social/reproductive behavior.

25 rons innervating cloacal muscles involved in reproductive behavior.

26 of intensive investigations into its role in reproductive behavior.

27 ules coordinate diverse behavioral motifs in reproductive behavior.

28 s, a structure traditionally associated with reproductive behavior.

29 the brain are most evident in the control of reproductive behavior.

30 or studying aspects of the neuronal basis of reproductive behavior.

31 nderlie the hormone-specific effect of OT on reproductive behavior.

32 s that closely mimic elements of spontaneous reproductive behavior.

33 h was not previously known to play a role in reproductive behavior.

34 these regions play in the regulation of male reproductive behavior.

35 s project to the CNS to control the female's reproductive behavior.

36 its social and possibly biological effect on reproductive behavior.

37 ng the hallmarks of AAS abuse are changes in reproductive behaviors.

38 ess active and males exhibited less frequent reproductive behaviors.

39 ecific form of arousal which is required for reproductive behaviors.

40 ic regions that control defensive as well as reproductive behaviors.

41 to a subsequent refractory state that limits reproductive behaviors.

42 male mice, thus indirectly blocking untimely reproductive behaviors.

43 attenuating estrogen's ability to facilitate reproductive behaviors.

44 brain region where estrogens control female reproductive behaviors.

45 imental evidence for the role of humidity in reproductive behaviors.

46 s a component of neural systems that control reproductive behaviors.

47 variation in their social, territorial, and reproductive behaviors.

48 in female reproductive physiology, including reproductive behaviors.

49 ment of the LHb in estrogen-dependent female reproductive behaviors.

50 They also act on the adult brain to activate reproductive behaviors.

51 e LC neuronal activity and NE release during reproductive behaviors.

52 ore complete expression of some male-typical reproductive behaviors.

53 Estradiol mediates male reproductive behaviors.

54 l preoptic area (mPOA), which underlies male reproductive behaviors.

55 one of the most apparent sexually dimorphic reproductive behaviors.

56 is involved in sexually dimorphic social and reproductive behaviors.

57 urons that are known to regulate feeding and reproductive behaviors.

58 t to the communication mechanisms regulating reproductive behaviors.

59 rculating hormones and associated changes in reproductive behaviors.

60 are critical to diverse functions, including reproductive behaviors.

61 e involved in pre- to post-copulatory female reproductive behaviors.

62 tribute to some variability in expression of reproductive behaviors.

63 ividuals engage in both reproductive and non-reproductive behaviors.

64 rain regions involved in the control of male reproductive behaviors.

65 ged afterdischarge that triggers a series of reproductive behaviors.

66 (VMH), a region typically involved in female reproductive behaviors.

67 g two major classes of social (defensive and reproductive) behavior.

68 the time of fertility to prime the brain for reproductive behavior [1-11], but how and where they reg

69 patchy prey distribution,(1)(,)(2) social or reproductive behaviors,(3)(,)(4) or oceanographic factor

70 involution of the gonads and a cessation of reproductive behavior 8-10 weeks later.

71 nct mechanisms of pheromonal signaling drive reproductive behaviors across taxa.

72 The genetic architecture of human reproductive behavior-age at first birth (AFB) and numbe

73 t ARbeta, is required for the performance of reproductive behavior and aggressive displays.

74 tive was to test the effects of gestodene on reproductive behavior and associated egg deposition in t

75 hormone-dependent development of normal male reproductive behavior and brain morphology.

76 n and, in parallel, may contribute to normal reproductive behavior and fecundity in C. elegans.

77 and quantitative trait loci (QTL) mapping of reproductive behavior and floral traits.

78 h effects on signaling systems that subserve reproductive behavior and function.

79 ary force, particularly in the regulation of reproductive behavior and its neural circuitry.

80 ystem controlling the display of normal male reproductive behavior and negative feedback inhibition o

81 of GnIH efferents to neural sites regulating reproductive behavior and neuroendocrine secretions, exp

82 factors during mating profoundly affect the reproductive behavior and physiology of female insects.

83 cuit in the link between these two outputs - reproductive behavior and physiology.

84 concentrations also profoundly affect female reproductive behavior and physiology.

85 septal and hypothalamic regions that control reproductive behavior and visceromotor responses, confir

86 ine (Prozac) and acute temperature stress on reproductive behaviors and activity levels in the guppy

87 variation at this locus, analyses of several reproductive behaviors and control for genetic backgroun

88 especially domesticated pets, and to prevent reproductive behaviors and diseases.

89 ch include differentiation and activation of reproductive behaviors and the control of the secretion

90 nt of neural systems that contribute to both reproductive behaviors and vaginal nociception.

91 differences in brain circuits for social and reproductive behavior, and 3) a spatial coupling between

92 parameters, including developmental stages, reproductive behavior, and fecundity.

93 t, males show little or no aggression and no reproductive behavior, and have basal levels of circulat

94 hey display high levels of aggression and no reproductive behavior, and have basal levels of circulat

95 ural processes such as neuronal development, reproductive behavior, and hormone secretion, and signal

96 ding of the relationships between social and reproductive behaviors, and captive environments on Mala

97 is involved in sexually dimorphic social and reproductive behaviors, and sends projections to hypotha

98 elegans, serotonin neurons that drive female reproductive behavior are directly modulated by inhibito

99 Drosophila reproductive behaviors are directed by fruitless neurons

100 In Syrian hamsters, reproductive behaviors are initiated in the presence of

101 ional timing) is energetically driven, while reproductive behaviors are largely free to vary independ

102 Drosophila melanogaster reproductive behaviors are orchestrated by fruitless neu

103 n rats, cats, and monkeys for the control of reproductive behavior, as largely defined by Holstege et

104 e effects of progesterone on sexual or other reproductive behaviors, as it remains to be tested.

105 ut not D1, dopamine receptor mRNA suppressed reproductive behavior associated with D1-like stimulatio

106 is refractory period limits the frequency of reproductive behaviors associated with egg laying.

107 This approach quantifies how reproductive behavior between individuals shapes pattern

108 neural regulation of seasonal aggressive and reproductive behavior, birds were collected during all t

109 Short photoperiod exposure eliminates reproductive behavior but social behaviors such as aggre

110 y is nitric oxide likely to be important for reproductive behavior, but also for the regulation of re

111 for maturation of the ovary and normal male reproductive behavior, but how JH distribution and activ

112 redominantly involved in the control of male reproductive behavior, but the degree to which VMH is in

113 steroid corticosterone interact to regulate reproductive behavior by actions in the brain.

114 eural circuit required for the modulation of reproductive behavior by food sensing.

115 ration, vomiting, vocalization, and probably reproductive behavior by means of projections to distinc

116 cell neurons of Aplysia trigger the onset of reproductive behaviors by generating a prolonged afterdi

117 ate control" mechanism for the inhibition of reproductive behaviors by threatening stimuli.

118 ation status of ERalpha has implications for reproductive behavior, cancer susceptibility, and recove

119 gical processes, such as feeding/metabolism, reproductive behaviors, circadian rhythms, central patte

120 e unique in their diet, physiology and socio-reproductive behavior compared to other primates.

121 l for proper integration of sensory cues and reproductive behavior, contained more new neurons than a

122 The reproductive behavior control column (RBCC), which compr

123 These influences of hormones on reproductive behavior depend in part on changes in the a

124 ran amphibians (frogs and toads), social and reproductive behaviors depend on a listener's ability to

125 Reproductive behaviors differ across species, but the me

126 eoptic area to prevent the display of female reproductive behavior during the first 20-24 hr after es

127 a,5alpha-THP may have some common effects on reproductive behavior, e.g., sexual motivation, receptiv

128 We hypothesized that the low levels of reproductive behavior exhibited by prepubertal and photo

129 odorants and odorant receptors in mediating reproductive behavior, foraging, and predator avoidance

130 ious inconsistent findings while showing how reproductive behavior has shaped the evolution of aging

131 hormonal signals, may facilitate or repress reproductive behavior in adulthood.

132 e pheromones facilitate a complex display of reproductive behavior in adults, prepubertal males do no

133 erentiation and development in juveniles and reproductive behavior in adults.

134 e requirement for trpVa and hearing for male reproductive behavior in Aedes is absolute, as mating in

135 relatively common features of the masculine reproductive behavior in birds.

136 Social status impacts reproductive behavior in diverse vertebrate species, but

137 Reproductive behavior in Drosophila has both stereotyped

138 trol sexual orientation and other aspects of reproductive behavior in Drosophila.

139 ne gland-secreted peptide-1 (ESP1), enhances reproductive behavior in female mice.

140 ore the relationship between sociability and reproductive behavior in flocks of Brown-headed Cowbirds

141 etection of pheromones related to social and reproductive behavior in most terrestrial vertebrates.

142 Mating changes female reproductive behavior in profound ways.

143 a sex-steroid-sensitive area that modulates reproductive behavior in rats.

144 MePD), a relevant area for the modulation of reproductive behavior in rats.

145 al approach tendencies in the fall predicted reproductive behavior in the spring.

146 cetic acid might function as a pheromone for reproductive behavior in zebrafish.

147 Thus, here we compared reproductive behaviors in adult males exposed to LBN vs.

148 smitter and in the regulation of feeding and reproductive behaviors in Biomphalaria.

149 ERalpha for the normal expression of natural reproductive behaviors in both sexes and also provide a

150 by which sex peptide exerts its control over reproductive behaviors in Drosophila females.

151 nces in the anatomy of neurons that underlie reproductive behaviors in Drosophila.

152 ex is involved in several estrogen-dependent reproductive behaviors in female rats, namely, sexual be

153 environment are linked to a wide variety of reproductive behaviors in humans and other animals.

154 ns of the brain regulates diverse social and reproductive behaviors in mammals, including humans.

155 NO) detect pheromones that elicit social and reproductive behaviors in most terrestrial vertebrates.

156 chanisms by which steroid hormones influence reproductive behaviors in rodents and other animals.

157 periments were designed to test female mouse reproductive behaviors in the cold.

158 ms regulating sexual dimorphisms relating to reproductive behaviors in vertebrates.

159 vides the earliest known evidence of complex reproductive behavior including site fidelity and coloni

160 VZ) and olfactory bulb (OB) mediates several reproductive behaviors including mating/pregnancy, domin

161 , AVT is an important facilitator of several reproductive behaviors, including courtship clasping of

162 e peptide or its receptors perform poorly in reproductive behaviors, including mate search, mate reco

163 The frequency of reproductive behaviors increased in WIK zebrafish for ex

164 species of cerambycid beetles suggests that reproductive behavior is correlated with the condition o

165 ts in terms of the acoustic control of avian reproductive behavior is discussed, and a comparison wit

166 Reproductive behavior is restored by intracerebroventric

167 neuroendocrine regulation of male and female reproductive behavior is sexually dimorphic.

168 A critical element in reproductive behavior is the investigative stage, which

169 nt processes, and for Aplysia, influence how reproductive behavior is triggered.

170 he degree to which VMH is involved in female reproductive behavior is unclear.

171 back modulates neural circuits to coordinate reproductive behaviors is incompletely understood.

172 central role in the regulation of the female reproductive behavior lordosis, a behavior dependent upo

173 (DZ, 125 mg/kg) to reduce the quality of the reproductive behavior, lordosis, and to reduce the EMG o

174 t regulates the display of the female rodent reproductive behavior, lordosis.

175 ons, suggesting LBN effects on estradiol and reproductive behaviors manifest after puberty.

176 efer boys over girls, which is manifested in reproductive behavior, marital life, and parents' pastim

177 Reproductive behavior may have acted as an important inb

178 are regarded as opportunistic breeders with reproductive behaviors mediated by short-term proximal e

179 LBN males acquired the suite of reproductive behaviors (mounts, intromissions, and ejacu

180 s preopticus and nucleus lateralis tuberis), reproductive behavior (nucleus preopticus magnocellulari

181 How does physiological state affect the reproductive behavior of an organism?

182 ound duration can play a pivotal role in the reproductive behavior of anuran amphibians.

183 atiles raises intriguing questions about the reproductive behavior of Arabidopsis in the wild and all

184 Results revealed that social and reproductive behavior of both sexes was significantly in

185 not required for the normal development and reproductive behavior of female mice, but is required fo

186 nverging evidence that the cyclic sexual and reproductive behavior of human populations is mostly dri

187 Although coral reefs are well studied, the reproductive behavior of most species and the relative i

188 rom October 4, 2012 to June 16, 2016, on the reproductive behavior of the Chinese pangolin based on t

189 analyses of captive individuals suggest that reproductive behavior of the giant lizard of La Gomera m

190 e insect-produced chemicals that mediate the reproductive behavior of these pests.

191 methylation that may underlie the divergent reproductive behaviors of males versus females.

192 Stoppage was investigated by comparing the reproductive behaviors of parents after the birth of a c

193 Social behaviors, including reproductive behaviors, often display sexual dimorphism.

194 Therefore, gonadal steroids facilitate male reproductive behavior only after as-yet-unidentified dev

195 nnected with the CP/PPn, have been linked to reproductive behavior or neuroendocrine control in other

196 als of the same species to elicit social and reproductive behaviors or physiological changes; they ar

197 n also acts via the MOR system to facilitate reproductive behavior, ovariectomized rats were primed w

198 o demographic effects such as aging on plant reproductive behavior, particularly in studies examining

199 lesus) in the Baltic exhibit two contrasting reproductive behaviors: pelagic and demersal spawning.

200 ction that is an important force that shapes reproductive behavior, physiology and morphology in a wi

201 GnIH can also directly inhibit reproductive behaviors, possibly via action within the b

202 regulation of puberty, menstrual cyclicity, reproductive behavior, pregnancy, menopause, and bone ho

203 We propose that this phenomenon results from reproductive behaviors reflecting a preference for havin

204 hether there are consequences for social and reproductive behaviors related to changes in estradiol (

205 Communicative, predatory, and reproductive behaviors rely on the auditory thalamocorti

206 In humans, a lunar influence on reproductive behavior remains controversial, although th

207 Nevertheless, lunar influence on human reproductive behavior remains controversial.

208 Coordination of food-sensing and reproductive behavior requires a subset of AVK neuropept

209 a exhibit enormous variation in all of their reproductive behaviors: resource use and specialization,

210 emporally reversed patterns of locomotor and reproductive behavior, respectively, in diurnal and noct

211 structures, such as gonadotropin secretion, reproductive behaviors, seizure threshold and others, wa

212 heromone signaling evolution can lead to new reproductive behavior strategies.

213 uction process may be associated with female reproductive behaviors such as pair bonding and kin reco

214 NOS is localized to neurons regulating male reproductive behavior, such as penile erection, and NOS

215 mice by olfactory recognition in aspects of reproductive behavior that concern mate selection, there

216 expression in three brain areas controlling reproductive behaviors-the preoptic area, ventromedial a

217 te a CNS-mediated role of gonadotropins in a reproductive behavior: the courtship songs of the South

218 Modulation of C. elegans reproductive behavior, therefore, requires a cascade of

219 rong evidence for dopaminergic modulation of reproductive behavior through D5 dopamine receptor-media

220 Wolbachia's unique ability to alter host reproductive behavior through its temperate bacteriophag

221 se forms have diverged in larval ecology and reproductive behavior through unknown genetic mechanisms

222 plysia bag cell (BC) neurons, which regulate reproductive behaviors, to examine the effects of Slack

223 enerators can govern the overt expression of reproductive behaviors via rapid non-transcriptional mec

224 the birth of a child with ASD, the parents' reproductive behavior was similar to that of control par

225 We hypothesize that in ancient times, human reproductive behavior was synchronous with the Moon but

226 plants and corals, and their similarities in reproductive behavior, we postulate that this convergent

227 Data on social and reproductive behaviors were collected from six tapirs (t

228 cific breeding month was confirmed; however, reproductive behaviors were highest in April.

229 mbinatorial neuropeptide signals to activate reproductive behavior when food is sensed.

230 enclosure size tended to increase social and reproductive behaviors, whereas high number of visitors

231 ting and drinking) and social (defensive and reproductive) behaviors, whereas the caudal segment is i

232 bright coloration and perform aggressive and reproductive behaviors while nondominant males do not.

233 own to regulate neuroendocrine functions and reproductive behaviors, while calcium-binding proteins a

234 Many species synchronize reproductive behavior with a particular phase of the lun

235 productive success, many species synchronize reproductive behavior with a particular phase of the lun

236 five distinct phenotypic groups by combining reproductive behavior with molecular data.