ライフサイエンスコーパス: seminal fluid

1 ld not activate without the addition of male seminal fluid.

2 ly 80 small peptides transferred in the male seminal fluid.

3 f mice were challenged with HSV delivered in seminal fluid.

4 ced sperm mortality and/or the redundancy of seminal fluid.

5 proteins are a major component of Drosophila seminal fluid.

6 hat functions to produce a major fraction of seminal fluid.

7 r to those of native PSA isolated from human seminal fluid.

8 ing that spermatids can be activated by male seminal fluid.

9 matozoa, presumably due to contact with male seminal fluid.

10 d rate of remating and increased toxicity of seminal fluid.

11 concentration of less than 15 million/ml of seminal fluid.

12 l and vaginal squamous epithelial cells, and seminal fluid.

13 of female cells and molecules with sperm and seminal fluid.

14 mong CD4(+) T cells expanding in response to seminal fluid.

15 eproductive tract, which produce and secrete seminal fluid.

16 mpetition, promoting compositional change in seminal fluid.

17 in the mother's breast milk and the father's seminal fluid.

18 extracellular TRY-5 protease present in male seminal fluid.

19 d into prostatic fluid, a major component of seminal fluid.

20 ycoproteins from a secretory epithelium into seminal fluid.

21 man cervix in response to the male partner's seminal fluid.

22 hat this requires neither incoming sperm nor seminal fluids.

23 ase (EVD) survivor who showed Ebola virus in seminal fluid 531 days after onset of disease.

24 Seminal fluid a2NTD levels were significantly correlated

25 t of semen, we injected queens with semen or seminal fluid alone.

26 Drosophila seminal fluid also contains a "sex peptide" (SP, Acp70A)

27 Seventy-six of 86 males requiring seminal fluid analysis as part of a separate study were

28 d the hypothesis that NlSPATA5 occurs in BPH seminal fluid and it operates in fecundity via mating.

29 , the successful oral transmission of HIV by seminal fluid and milk is unexplained.

30 Whether seminal fluid and milk successfully transmit HIV orally

31 Socially exchanged fluids, like seminal fluid and milk, allow individuals to molecularly

32 osal surfaces [1], despite their presence in seminal fluid and mucosal secretions from infected indiv

33 id changes in sperm velocity are mediated by seminal fluid and the effect of seminal fluid on sperm v

34 g differential impacts of aging on sperm and seminal fluid and trade-offs between them or, more broad

35 eting males; both are usually transferred in seminal fluids and represent forms of chemical mate guar

36 ng sperm, (ii) direct displacement mainly by seminal fluid, and (iii) direct displacement mainly by s

37 use the same allocation rules for sperm and seminal fluid, and (iii) experience changes in current a

38 Introduction of talcum powder, urine, seminal fluid, and blood also failed to generate increas

39 and normal donor samples of milk, colostrum, seminal fluid, and blood were studied for their ability

40 body responses in the rectum, vagina, urine, seminal fluid, and blood.

41 O-glycoproteins in analyses of human serum, seminal fluid, and cell growth media.

42 scribe the diverse features and functions of seminal fluid, and its role in evolution and medicine.

43 detect hK2 protein in human prostate tissue, seminal fluid, and sera.

44 ytokine environment induced in the cervix by seminal fluid appears competent to initiate adaptations

45 The constituents of seminal fluid are a complex mixture of proteins and othe

46 , when spe-27 mutant male spermatids without seminal fluid are artificially inseminated into hermaphr

47 Moreover, RANKL levels in seminal fluid are high and distinguishes normal from inf

48 In Drosophila melanogaster, proteins in the seminal fluid are responsible for important female postm

49 ynovium and synovial fluid, breast milk, and seminal fluid are universally CCR9(-).

50 processing; consistent with this hypothesis, seminal fluids are rich in proteolysis regulators.

51 of male survivors clear Ebola virus RNA from seminal fluid at 115 days (90% prediction interval 72-16

52 We observed that either LPD sperm or seminal fluid at conception impaired adult offspring vas

53 Participants provided samples of seminal fluid at follow-up every 3-6 weeks, which we tes

54 The cytokine profile in seminal fluid, but not in peripheral blood, was signific

55 offspring of ablating the plasma fraction of seminal fluid by surgical excision of the seminal vesicl

56 capacitate females physically from receiving seminal fluids by a second male.

57 Across a diversity of animals, male seminal fluid coagulates upon ejaculation to form a hard

58 les during and after mating are triggered by seminal fluid components in conjunction with female-deri

59 To determine the role of seminal fluid components in mediating changes in attract

60 These findings are consistent with seminal fluid components manipulating queen eyesight to

61 Functional redundancy between seminal fluid components may occur.

62 ophila melanogaster accessory glands secrete seminal fluid components that enhance fecundity.

63 ses, the magnitude of responses due to other seminal fluid components, and whether SP accounts for th

64 r that sperm act as carriers for SP or other seminal fluid components.

65 fully functional germline (sperm) and soma (seminal fluid) components.

66 These findings show that paternal seminal fluid composition affects the growth and health

67 e men, one dose of Denosumab decreases RANKL seminal fluid concentration and increases serum Inhibin-

68 rus are rendered temporarily unattractive by seminal fluids containing myristyl acetate and geranylge

69 In addition, the seminal fluid contains antibacterial peptides and protea

70 e and seminal vesicles, generate most of the seminal fluid contents.

71 The seminal fluid conveyed with the sperm inhibits the procl

72 e to sperm damage and partly to an effect of seminal fluid deficiency on the female tract, because in

73 ted from five diverse sources (i.e., plasma, seminal fluid, dendritic cells, mast cells, and ovarian

74 perm are well known, we do not know how much seminal fluid deteriorates in comparison.

75 We demonstrate that seminal fluid deterioration contributes to male reproduc

76 Here we show that seminal fluids do not kill rival sperm and that any 'inc

77 Seminal fluid does more than transport sperm.

78 ide (SP), which is transferred with the male seminal fluid during insemination.

79 In mice, seminal fluid elicits an inflammation-like response in t

80 A component in seminal fluid elicits an ovulatory response and has been

81 Some seminal fluid-encoding genes also show high rates of evo

82 field trials revealed that queens receiving seminal fluid flew two days earlier than sister queens i

83 firmed reports of Zika virus (ZIKV) in human seminal fluid for months after the clearance of viremia

84 heral Tregs (pTregs) respond to male partner seminal fluid, Foxp3(+)CD4(+) Tregs were examined in the

85 F-beta1 (P<0.01) levels when compared to the seminal fluid from fertile men.

86 with Drosophila melanogaster have shown that seminal fluid from the male accessory gland triggers a s

87 Two participants showing HIV-1 RNA in seminal fluid from the MGS-negative group also had conco

88 ts emphasize that more than 40% of annotated seminal fluid genes are better described as shared compo

89 ting on male-limited versus female-expressed seminal fluid genes.

90 Infertile men's seminal fluid had significantly lower G-CSF (P<0.01), GM

91 lastic adjustment of ejaculate quality, that seminal fluid harbours the mechanism for the rapid adjus

92 In contrast to these benefits to males, seminal fluid has substantial toxic side effects in fema

93 Human seminal fluid (HSF) is a complex mixture of reacting gla

94 esponse, and related pathways are induced by seminal fluid in cervical tissues.

95 the physiological response of the cervix to seminal fluid in vivo.

96 Drosophila seminal fluid includes proteins that fall into biochemic

97 ribe the dynamics of Ebola virus RNA load in seminal fluid, including clearance parameters.

98 eins and peptides in Drosophila melanogaster seminal fluid induce mated females to increase their rat

99 Zn-finger transcription factor PQM-1 promote seminal-fluid-induced killing.

100 uencing and electroretinography to show that seminal fluid induces a decline in queen vision by pertu

101 , and subsequent life-span decrease, whereas seminal fluid induces DAF-16-dependent life-span decreas

102 We conclude that seminal fluid introduced at intercourse elicits expressi

103 of free prostate specific antigen from human seminal fluid is demonstrated in less than 5 min.

104 a predicted astacin-type metalloprotease in seminal fluid, is necessary to process two other seminal

105 suggest that TGF-beta in the male partner's seminal fluid may influence cervical immune function aft

106 sification, and maintenance of variation in, seminal fluid-mediated traits.

107 an ideal habitat for microbes or a potential seminal fluid microbiome (SFM).

108 that successful oral transmission of HIV by seminal fluid, milk, and colostrum may be due to their i

109 ster this stimulation is initially caused by seminal fluid molecules transferred from the male (Acps

110 from male accessory glands (MAG), which make seminal fluid molecules, female Ae. aegypti become resis

111 mean clearance rate of Ebola virus RNA from seminal fluid of -0.58 log units per month, although the

112 swabs of 1 patient and up to 101 days in the seminal fluid of 4 patients.

113 n by mosquitoes, ZIKV can be detected in the seminal fluid of affected males for extended periods of

114 e 1 (HIV-1) virions in peripheral plasma and seminal fluid of infected men.

115 The seminal fluid of male Drosophila contains a cocktail of

116 e potential impacts of male PHF7, existed in seminal fluid of Nilaparvata lugens (NlPHF7), on fecundi

117 eriments using spermless males show that the seminal fluid of the conspecific male is largely respons

118 t a multi-functional peptide provided in the seminal fluid of their mates induces this behavior.

119 mediated by seminal fluid and the effect of seminal fluid on sperm velocity directly impacts paterni

120 Injection with either seminal fluid or semen resulted in decreased sexual rece

121 analyse the dynamics of virus persistence in seminal fluid over time.

122 Seminal fluid plays an essential role in promoting male

123 egs with distinct phenotypes both respond to seminal fluid priming, but the Foxp3 epigenetic signatur

124 ickly lead to a change in the quality of the seminal fluid produced by a male Chinook salmon as he re

125 anscriptome of an important cell type of the seminal fluid-producing accessory gland of Drosophila me

126 that modification to the cellular make-up of seminal-fluid-producing tissues is an important factor i

127 Seminal fluid profoundly influences cervical immune func

128 NAi to knock down individually 11 Drosophila seminal fluid proteases and protease inhibitors.

129 The Drosophila seminal fluid protein (SFP) sex peptide (SP) elicits num

130 Seminal fluid protein genes are expressed only in males,

131 Sex peptide (SP), a seminal fluid protein of Drosophila melanogaster males,

132 This increase is initiated by the male seminal fluid protein ovulin and is executed by female p

133 as immunosuppressive [12, 13], and the male seminal fluid protein Sex Peptide (SP) activates JH bios

134 Here, we demonstrate that the seminal fluid protein Sex Peptide (SP) is a key modulato

135 a melanogaster Acp29AB gene, which encodes a seminal fluid protein that is transferred from males to

136 Acp36DE is a male seminal fluid protein whose localization in mated female

137 One seminal-fluid protein, ovulin (Acp26Aa), stimulates an e

138 We report here that of eight Drosophila seminal fluid proteins (Acps) and one non-Acp tested, on

139 Several seminal fluid proteins (Acps) made in the Drosophila mal

140 anges are the direct result of the sperm and seminal fluid proteins (Acps) that females receive from

141 y of these changes are elicited by sperm and seminal fluid proteins (Acps) that males transfer to fem

142 osophila melanogaster and other insects, the seminal fluid proteins (SFPs) and male sex pheromones th

143 Seminal fluid proteins (Sfps) are crucial for animal rep

144 Seminal fluid proteins (SFPs) are emerging as fundamenta

145 While seminal fluid proteins (SFPs) are typically thought of a

146 Seminal fluid proteins (SFPs) exert potent effects on ma

147 Seminal fluid proteins (SFPs) produced in reproductive t

148 of 19 previously unannotated genes encoding seminal fluid proteins (Sfps) that are transferred from

149 Male Seminal Fluid Proteins (SFPs) transferred during copulat

150 For example, in many insect species, male seminal fluid proteins (Sfps) transferred in a female's

151 ndent control over the transfer of sperm and seminal fluid proteins (SFPs) under different levels of

152 components of the ejaculate [3, 4], such as seminal fluid proteins (Sfps).

153 's physiology through interactions with male seminal fluid proteins (SFPs).

154 In D. melanogaster, seminal fluid proteins affect female receptivity, ovulat

155 Drosophila melanogaster males transfer seminal fluid proteins along with sperm during mating.

156 Multiple seminal fluid proteins and female proteins associate wit

157 nctional classes of mammalian and Drosophila seminal fluid proteins are conserved, despite difference

158 osophila melanogaster males deficient in the seminal fluid proteins derived from the accessory gland

159 g changes in female insects are triggered by seminal fluid proteins from the male's accessory gland p

160 hat encode putative accessory gland-specific seminal fluid proteins had a significantly elevated leve

161 ection results in more adaptive evolution of seminal fluid proteins in the repleta group flies.

162 Cross-species transfer of sperm and active seminal fluid proteins including HP-I may contribute to

163 Research on seminal fluid proteins is providing fundamental insights

164 Some seminal fluid proteins may provide protective functions

165 We found that specific seminal fluid proteins or female secretions mediate some

166 Few seminal fluid proteins remain after long-term sperm stor

167 al analyses revealed that levels of specific seminal fluid proteins repeatedly shifted in response to

168 melanogaster, mating and the receipt of male seminal fluid proteins results in reduced resistance to

169 semen by virtue of its ability to cleave the seminal fluid proteins semenogelins I and II.

170 Drosophila melanogaster seminal fluid proteins stimulate sperm storage and egg l

171 ng that components in seminal fluid, such as seminal fluid proteins, are largely responsible for stim

172 exhibited lower expression of genes encoding seminal fluid proteins, which mediate the female respons

173 are novel associations with uncharacterized seminal fluid proteins.

174 during and after mating, including sperm and seminal fluid proteins.

175 and transferred normal amounts of sperm and seminal fluid proteins.

176 duced either by mating itself or by sperm or seminal fluid proteins.

177 petitive proteins considered to be candidate seminal fluid proteins; proteins encoded by one of these

178 pTregs are sensitive to local regulation by seminal fluid, providing a candidate mechanism warrantin

179 with Drosophila melanogaster indicating that seminal fluid reduces the competitive ability of sperm f

180 In Drosophila melanogaster, seminal fluid regulates the reproductive and immune resp

181 Infectious virus was detected in 1 seminal fluid sample obtained 82 days after disease onse

182 rs formed from a peptide ubiquitous in human seminal fluid (semen-derived enhancer of viral infection

183 Injection of the seminal fluid sex peptide (SP) induces both responses in

184 little is known about concomitant changes in seminal fluid (SF) and its molecular composition, despit

185 resenting a new genotype was isolated from a seminal fluid specimen.

186 We enrolled 26 participants and tested 130 seminal fluid specimens; median follow up was 197 days (

187 ating behavior and the transfer of sperm and seminal fluid (SSFT) provide a model for understanding h

188 ed with semen, suggesting that components in seminal fluid, such as seminal fluid proteins, are large

189 ial chemical 4-nitrophenol in follicular and seminal fluids suggests they can cross both blood-follic

190 le, and sperm incapacitation, where incoming seminal fluids supposedly interfere with resident sperm,

191 r-old man with oligospermia (7 million/ml of seminal fluid), surgically treated 2 years ago for clini

192 agment (PAP(248-286)) has been isolated from seminal fluid that dramatically enhances HIV infectivity

193 The seminal fluid that is transferred along with sperm durin

194 g enough to ensure the transfer of sperm and seminal fluid that ultimately leads to fertilization.

195 y mimicked by a stable synthetic simulant of seminal fluid that we formulated.

196 During mating, males provide females with seminal fluids that include proteins affecting female ph

197 queen post-mating changes are influenced by seminal fluid, the non-spermatozoa-containing component

198 ale reproductive glands secrete signals into seminal fluid to facilitate reproductive success.

199 gland proteins ("Acps," a major component of seminal fluid) transferred by males during mating trigge

200 mating, sex peptide-a protein from the male seminal fluid-triggers many behavioural and physiologica

201 10 d, viral RNA was detectable in saliva and seminal fluids until the end of the study, 3 weeks after

202 IgG, has been detected in the genital tract, seminal fluid, urethral swabs, urine, and vaginal wash s

203 cles (prostasomes) that can be isolated from seminal fluid, urine, and blood.

204 N: Time to clearance of Ebola virus RNA from seminal fluid varies greatly between individuals and cou

205 Male Anopheles mosquitoes coagulate their seminal fluids via cross-linking of a substrate, called

206 was detected in 29 of the 32 persons in whom seminal fluid was analyzed.

207 and secreted chemokine-cytokine profiles in seminal fluid were measured.

208 transcriptional changes of queens receiving seminal fluid were not significantly different from quee

209 Seminal fluid, which affects female reproductive tract g

210 Such effects could be due to the seminal fluid, which is slightly basic and enriched with

211 his obstacle, while another study reports on seminal fluid with very specific spermicidal activity, s