ライフサイエンスコーパス: maternal factor

1 ime windows and can be influenced by various maternal factors.

2 pertensive disorders of pregnancy, and other maternal factors.

3 ing for other adverse pregnancy outcomes and maternal factors.

4 erse pregnancy outcomes, adjusting for other maternal factors.

5 with pregnancy duration, adjusting for other maternal factors.

6 verse pregnancy outcomes, adjusted for other maternal factors.

7 irth while adjusting for other perinatal and maternal factors.

8 nd gestational diabetes, adjusting for other maternal factors.

9 ars, accounting for confounding neonatal and maternal factors.

10 observed during gastrulation depend fully on maternal factors.

11 sibship design to account for confounding by maternal factors.

12 into what activates the expression of these maternal factors.

13 on and, in most metazoans, is dependent upon maternal factors.

14 e in the upper quartile after accounting for maternal factors.

15 n the zebrafish is zygotic, but regulated by maternal factors.

16 t these conditions could be more affected by maternal factors.

17 both univariate and adjusted for social and maternal factors.

18 ates and allows for control of the impact of maternal factors.

19 d that DMBQ responsiveness was influenced by maternal factors.

20 eumonia symptoms, and duration of symptoms), maternal factors (age, education, and working status), a

21 of births aggregated to the Census tract by maternal factors (age, parity, singleton vs multiple bir

22 the zygotic genome is precisely activated by maternal factors, allowing normal early embryonic develo

23 is known regarding the associations between maternal factors and B-vitamin and choline concentration

24 hereas late transient rhinitis may relate to maternal factors and early respiratory infections indepe

25 To understand the processes controlled by maternal factors and identify key genes involved, we emb

26 een shown to be influenced by both fetal and maternal factors and in observational studies is reprodu

27 ty to define predictive correlations between maternal factors and offspring insulin resistance.

28 postnatal life, influenced by both prenatal maternal factors and postnatal developmental cues.

29 female offspring at 27 weeks, independent of maternal factors and postnatal growth.

30 The milk lipidome is dynamic, influenced by maternal factors and related to the maternal plasma lipi

31 the first year is determined by HIV and EBV maternal factors and that EBV DNA levels were higher amo

32 nd choline concentrations over time based on maternal factors and the early postpartum concentrations

33 ant gut microbiome, including its shaping by maternal factors and upon the introduction of solid food

34 onstrating key roles for extrinsic biases by maternal factors and/or extraembryonic tissues in embryo

35 n was used to adjust for other perinatal and maternal factors, and co-sibling analyses assessed the p

36 A comprehensive model including sFlt-1/PlGF, maternal factors, and hs-cTnI provided added value (cros

37 d associations of HM components with LMS and maternal factors, and relationships between infant milk

38 s specified by inductive signals rather than maternal factors, and support the existence of zygotical

39 of prediction models incorporating hs-cTnI, maternal factors, and the sFlt-1 (soluble fms-like tyros

40 Maternal factors are implicated in the onset of childhoo

41 Early maternal factors are important predictors for adolescent

42 Lastly, when maternal factors are insufficient to prevent neonatal in

43 Although a large number of maternal factors are known to be essential for fertiliza

44 However, it is unclear whether other maternal factors are required to promote MIA-associated

45 The results implicate the interplay between maternal factors as strong predictors of offspring asthm

46 tic regression models were used to determine maternal factors associated with an elevated CRP.

47 We explored maternal factors associated with EBV acquisition in HIV-

48 s to compare the repertoire, protection, and maternal factors associated with human milk antibodies t

49 In univariate analysis, maternal factors associated with NAFLD in female offspri

50 onal diabetes mellitus (GDM) and to identify maternal factors associated with plasma phospholipid AA

51 is present in human milk and to characterize maternal factors associated with potential variation in

52 distribution within families and identified maternal factors associated with unisexual sibships.

53 ion of amacrine fate bias involves intrinsic maternal factors at cleavage, fate restriction in the ne

54 is used Cox regression models, adjusting for maternal factors, birth parameters, and socioeconomic st

55 emographics, parents' body mass index (BMI), maternal factors, birth weight for gestational age, and

56 mposition and diversity were associated with maternal factors (BMI, parity, and mode of delivery), br

57 ion methods to assess the independent effect maternal factors (body mass index (BMI; weight (kg)/heig

58 early development is dependent on a pool of maternal factors, both RNA and proteins, which are requi

59 delivery mode and adjusted for demographics, maternal factors, breastfeeding, and childhood antibioti

60 on and is thought to be under the control of maternal factors, but the underlying mechanisms remain p

61 al transition is triggered by titration of a maternal factor by the increasing mass of nuclear materi

62 It is well established that maternal factors can affect the abilities of offspring t

63 The results of this study show that maternal factors can be potentially used for the assessm

64 early life metal exposure and highlights how maternal factors can impact these levels.

65 ate that the fetal metabolism is impacted by maternal factors (cART and HIV-1) and skews physiologica

66 several hundred genes directly activated by maternal factors, constituting the first wave of zygotic

67 Maternal factors control development prior to the activa

68 We have begun to explore the maternal factors controlling zygotic hlh-1 expression.

69 ic development in metazoans is controlled by maternal factors deposited in the egg during oogenesis.

70 Maternal factors deposited in the oocyte have well-estab

71 sociated with microbial composition and that maternal factors determine the child's microbiome.

72 Adjustment for maternal factors did not attenuate the strength of assoc

73 After fertilization, maternal factors direct development and trigger zygotic

74 dle scaling, through differential loading of maternal factors during interphase.

75 Yet the identity and function of these maternal factors during the gamete to embryo transition

76 lag models adjusting for child age, sex, and maternal factors (education, race and ethnicity, smoking

77 w to negligible contributions of genetic and maternal factors equating with low heritability and evol

78 Adjustment of maternal factors except parental ethnicity changed littl

79 Our study shows that H3.3 is a crucial maternal factor for oocyte reprogramming and provides a

80 h Asians and South Asians had more favorable maternal factors for birth weight.

81 ganization requires polarized inheritance of maternal factors from dorsal-marginal regions of the bla

82 , however, did not perturb repression of the maternal factors GLD-1 and POS-1, suggesting that subset

83 Multiple maternal factor groups were associated with the neonatal

84 In this study, we sequenced two maternal (factor H and C3) and one fetal (CD46) compleme

85 Other maternal factors hardly explained this ethnic disparity

86 estimate overall associations, adjusted for maternal factors (i.e., education, national origin, age,

87 years of age after adjustments for child and maternal factors (ie, sex, ethnicity, maternal age, mate

88 ous and exogenous sources and discussed both maternal factors impacting HM levels and relationships w

89 In an expression screen to identify maternal factors important for early development, we iso

90 h limited data suggest a vital role of these maternal factors in chromatin reprogramming and embryoni

91 mechanism, and autonomous-an inheritance of maternal factors in early development.

92 ene transcription dictates a role for stored maternal factors in early mammalian development.

93 long-standing proposal that localization of maternal factors in eggs can provide the basis for patte

94 How maternal factors in oocytes initiate zygotic genome acti

95 How maternal factors in oocytes trigger zygotic genome activ

96 ment of the placenta, and suggest a role for maternal factors in regulating the morphogenesis of embr

97 Many maternal factors in the oocyte persist in the embryo.

98 These results suggest that endogenous maternal factors in the vegetal region repress the abili

99 on rates remained higher after adjusting for maternal factors (incidence rate ratio, 1.5; 95% confide

100 additional adjustments for maternal age and maternal factors including anovulation and antral follic

101 or placenta are dependent on the species and maternal factors, including age and nutrition.

102 known to be influenced by various fetal and maternal factors, including genetic effects.

103 We hypothesized that several maternal factors, including the mode of delivery, influe

104 endoderm is initially specified by localised maternal factors, including the transcription factor Veg

105 Although several neonatal and maternal factors increase the risk that a normal newborn

106 The other maternal factors independently associated with transmiss

107 Our findings suggest maternal factors influence offspring sex distributions.

108 However, it remains unknown what upstream maternal factors initiate ZGA in either a Dux-dependent

109 regulating host immunity and development via maternal factors injected into hosts during oviposition.

110 Fetal genotype and maternal factors interact to prevent Tgfb1(-/-) embryoni

111 Network analysis clustered over 200 maternal factors into thirteen distinct groups, and most

112 During oogenesis a maternal factor is localized to the vegetal pole of the

113 is suggests that a primary function of these maternal factors is to regulate zygotic end-1 expression

114 To identify these maternal factors, it is necessary to bypass the earlier

115 os are being protected during gestation by a maternal factor led us to treat the newborn animals with

116 We demonstrate that the maternal factor lipid phosphate phosphatase Wunen-2 (Wun

117 he Xist activator RNF12/RLIM is present as a maternal factor, maternal Xist (Xm-Xist) is repressed du

118 ing strong evidence for a mechanism by which maternal factors may affect offspring health through mic

119 n in prospective studies, hs-cTnI, alongside maternal factors, may either be considered as a substitu

120 Here, we explore the ways in which maternal factors modify chromatin to specify initial com

121 ined the relation, controlled for associated maternal factors, of diet and supplement use to tocopher

122 ts of dietary intake, milk output, and other maternal factors on changes in BMD.

123 However, the influence of maternal factors on the neonatal microbiota remains obsc

124 rved within Bilatera: early determination by maternal factors or late induction by zygotic cues.

125 Maternal factors, outcomes, and birth weights were analy

126 We identify a maternal factor, Pramel15, which targets DNMT1 for degra

127 However, these poorly defined maternal factors presumably decline sharply after fertil

128 cesarean sections, even after accounting for maternal factors, preterm delivery, and past cesarean se

129 n section delivery even after accounting for maternal factors, preterm delivery, and past cesarean se

130 of detection cutoff (>=1.9 pg/mL) alongside maternal factors provided comparable performance with th

131 nown about the molecular mechanisms by which maternal factors regulate embryonic development.

132 d microbiota that have been suggested as key maternal factors regulating offspring allergies are disc

133 In contrast to the many known maternal factors required for embryogenesis, SPE-11 is t

134 megalovirus, HSV, and VZV with perinatal and maternal factors (sex, mother's ethnicity, mode of deliv

135 al pathways underlying infant mortality, and maternal factors shaping immune development in HIV-expos

136 We further showed that two maternal factors, Smarcd2 and Cyclin T2, whose translati

137 Maternal factors such as overweight/obesity (OW) and ges

138 data suggest that fetal growth restriction, maternal factors such as smoking, alcohol use and gestat

139 Maternal factors such as women 20 years of age or younge

140 Convincing evidence suggests that maternal factors, such as age and features of metabolic

141 an-milk nutrient composition and influential maternal factors, such as body composition, are barriers

142 This suggests that maternal factors, such as compromised uteroplacental blo

143 These findings suggest maternal factors, such as metabolites, lipid provisionin

144 n together, our findings imply that nonviral maternal factors, such as the cytokine milieu, rather th

145 Chl is a maternal factor that is also zygotically expressed later

146 f transmitting the maternal genome and other maternal factors that are critical for post-ovulation ev

147 Maternal factors that are responsible for this reprogram

148 Here we show, by using a genetic screen for maternal factors that contribute in a dose-dependent fas

149 acilitating the reverse genetics analysis of maternal factors that drive embryonic development.

150 Maternal factors that have been implicated in anomalous

151 the recent 10 years regarding the potential maternal factors that influence offspring allergies with

152 rn complications (UNCs) are not adjusted for maternal factors that may be associated with outcomes in

153 Maternal factors that might impair the integrity of the

154 ntal system should be useful for identifying maternal factors that modulate epigenetic mechanisms, es

155 s suggest that DPPA2 and DPPA4 are essential maternal factors that regulate Dux and ZGA in embryos.

156 during pregnancy would result in transfer of maternal factors that would differentially impact develo

157 tein Jumu binds 6mA-marked DNA and acts as a maternal factor to regulate the maternal-to-zygotic tran

158 lines of evidence that two vegetal-enriched maternal factors (VegT, Vg1), which are known to promote

159 eased odds of HIV transmission adjusting for maternal factors (viral load, CD4 cell count, and antire

160 mentally uncouple genetic from environmental maternal factors, we did not observe maternofetal microc

161 Child and maternal factors were associated with lack of school rea

162 The only statistically significant maternal factors were parity - 22% nulliparous before an

163 gene(s) encoding Tgfbkm2 and its interacting maternal factors will be central to an understanding of

164 fer has established that the oocyte contains maternal factors with epigenetic reprogramming capacity.

165 preeclampsia is provided by a combination of maternal factors with measurements of mean arterial pres