ライフサイエンスコーパス: developmental programming

1 mechanisms underlying glucocorticoid-induced developmental programming.

2 ussion of differences arising in response to developmental programming.

3 gene methylation patterns and contribute to developmental programming.

4 of the cell cycle and participates in early developmental programming.

5 d the kinetics of immune responses is set by developmental programming.

6 ich prompted us to investigate their role in developmental programming.

7 c mechanisms may be at the roots of adaptive developmental programming.

8 e malnourished embryonic kidney from adverse developmental programming.

9 emerging areas of pregnancy biology such as developmental programming.

10 pigenetic toxicant and could influence fetal developmental programming.

11 avioral changes were due to altered neuronal developmental programming.

12 as a novel mechanism of BPA-induced altered developmental programming.

13 arly maternal nutrient restriction on bovine developmental programming.

14 s by studying the thymus from a rat model of developmental programming.

15 h impacts of placental genomic regulation in developmental programming across the life course.

16 course cellular mechanisms involved in this developmental programming-ageing interaction are poorly

17 sults reveal an NOD genetic defect in T cell developmental programming and checkpoint control that pe

18 rnal high-fat diet (HFD) alters hypothalamic developmental programming and disrupts offspring energy

19 can mitigate sperm-inherited alterations in developmental programming and modify the penetrance of g

20 neage commitment regulates gammadelta T cell developmental programming and shapes the gammadelta TCR

21 the first time how early-life stress drives developmental programming and transgenerational effects

22 nse mechanisms activated by changes in plant developmental programming and/or stresses imposed during

23 Thus, the terms 'developmental programming' and the 'Developmental Origin

24 verse outcomes (growth, gestational age, and developmental programming); and infant adverse outcomes.

25 identify Grb10 as a key genetic component of developmental programming, and highlight the need for a

26 uences mRNA stability and cell-type-specific developmental programming, and is highly abundant in the

27 Aging and developmental programming are both associated with oxida

28 owever, molecular mechanisms underlying such developmental programming are not well characterized, an

29 d variation among different species in their developmental programming are poorly defined due to the

30 exposed during childhood implicates maternal developmental programming as a putative mechanism.

31 Developmental programming by early choline nutrition may

32 These mechanisms may contribute to developmental programming by MO of offspring cardiac fun

33 The observation that developmental programming can be reversed has been demon

34 ls are also unusually flexible in their late developmental programming, demonstrating substantial ove

35 in offspring adipose tissue, demonstrating a developmental programming effect.

36 ve helped to unravel distinctive elements of developmental programming for Tfh cells and unique effec

37 These studies demonstrate that the developmental programming in NK cells is not fixed, and

38 at these changes are associated with altered developmental programming in the placenta.

39 ng female reproductive outcomes and inducing developmental programming in utero.

40 guishable function, migratory properties and developmental programming in vivo.

41 behavior, suggesting impact of this drug on developmental programming in zebrafish.

42 on studies corroborate classical research on developmental programming indicating that obesity is pri

43 Developmental programming involves the accurate conversi

44 ated with adverse outcomes in offspring, and developmental programming is a potential mechanism.

45 Childhood asthma developmental programming is complex.

46 Developmental programming is defined as the process by w

47 An interesting aspect of developmental programming is the existence of transgener

48 Developmental programming links growth in early life wit

49 In an intergenerational developmental programming model affecting F2 mouse metab

50 suggests that maternal nutrition can induce developmental programming of adult hypertension in offsp

51 Our data suggest that developmental programming of aging importantly contribut

52 epithelial energy metabolism in altering the developmental programming of airway epithelial cells (AE

53 abnormalities may partly arise from altered developmental programming of beta-cells.

54 r results define the role of the fetal PT in developmental programming of brain function by maternal

55 pathways mediating cardiovascular aging and developmental programming of cardiovascular disease, and

56 pathways mediating cardiovascular aging and developmental programming of cardiovascular disease.

57 help identify modifiable targets to prevent developmental programming of common diseases.

58 r of discrete genetic mechanisms that govern developmental programming of cotton fiber morphogenesis

59 oglycan-deficient myofibers leads to altered developmental programming of developing and regenerating

60 Developmental programming of diabetes in these mice was

61 ion, embryonic stem (ES) cells can erase the developmental programming of differentiated cell nuclei

62 se activity but had no significant affect on developmental programming of dissacharidases.

63 sue (SAT) is suggested to play a role in the developmental programming of dysmetabolism based on stud

64 e a rich resource for epigenetic analyses of developmental programming of energy balance.

65 BPA selectively altered the normal developmental programming of estrogen-responsive genes v

66 s persistent long-term protective effects on developmental programming of hepatic lipotoxicity and in

67 actation, protects offspring from WD-induced developmental programming of hepatic lipotoxicity and ma

68 Does developmental programming of human body weight regulatio

69 rtheless, comprehensive understanding of the developmental programming of immunity is limited.

70 , two common adverse conditions in utero, to developmental programming of insulin resistance remain u

71 target for clinical intervention against the developmental programming of metabolic disease resulting

72 nnervation of the PVH, with implications for developmental programming of metabolic phenotype.

73 ) in metabolic tissues is fundamental to the developmental programming of metabolic syndrome, but und

74 Using an in vivo - in vitro model of developmental programming of neuroinflammation induced b

75 ws for and sex differences in sensitivity to developmental programming of obesity and provide a rich

76 losure of an established critical window for developmental programming of obesity risk.

77 Numerous rodent studies demonstrate developmental programming of offspring cognition by mate

78 or identifying the mechanisms underlying the developmental programming of offspring phenotype by subo

79 retinal and visual function, likely through developmental programming of retinal dopamine.

80 Recent studies suggest that developmental programming of the carotid body response t

81 arly prior stress history, contribute to the developmental programming of the hypothalamic-pituitary-

82 We further postulate how embryonic developmental programming of the MeA may inform later em

83 Further evidence for developmental programming of the metabolic syndrome has

84 Mechanisms underlying the developmental programming of unique tissue-homing proper

85 to explain the lifelong persistence of such "developmental programming" of energy balance.

86 The influence of developmental programming on bronchial hyperreactivity i

87 sion after drug challenge, metabolic stress, developmental programming or other perturbation represen

88 ever, environmental conditions can influence developmental programming, potentially causing metabolic

89 Our results illustrate how developmental programming predisposes to beta-cell dysfu

90 ms, however, that regulate gammadelta T cell developmental programming remain unclear.

91 The epigenetic mechanisms of developmental programming revealed here are likely to re

92 Cross-fostering is widely used in developmental programming studies to determine the relat

93 and microbial stimuli, but also evolutionary developmental programming that functions independently o

94 using the Cd4 locus as a paradigm for early developmental programming, that DNA demethylation during

95 issue plasticity can override preestablished developmental programming, thereby redefining developmen

96 These data demonstrate effects of developmental programming upon thymic involution.

97 al transfer of this antidepressant, disrupts developmental programming using zebrafish (Danio rerio)