ライフサイエンスコーパス: epigenetic process

1 modifications may be transmitted, a putative epigenetic process.

2 ales by hijacking an essential, male-limited epigenetic process.

3 offspring neurodevelopment, potentially via epigenetic processes.

4 ene reprogramming suggest the involvement of epigenetic processes.

5 are required for one-carbon biosynthetic and epigenetic processes.

6 logic reversal of these distinct but related epigenetic processes.

7 d by the combinatorial and dynamic nature of epigenetic processes.

8 of previously experienced conditions through epigenetic processes.

9 made about what are currently referred to as epigenetic processes.

10 ic cycle genes is largely suppressed through epigenetic processes.

11 an unprecedented impact of redox signals on epigenetic processes.

12 me guides and/or facilitates these postnatal epigenetic processes.

13 that methylation of quadruplexes may affect epigenetic processes.

14 fication and regulation, and linking diverse epigenetic processes.

15 of DH E2 infusion on object recognition and epigenetic processes.

16 This epigenetic process acts as an alternative to mutations t

17 These findings expand the extent to which epigenetic processes affect the diabetic kidney to inclu

18 we identified genetic determinants for this epigenetic process and examined their biologic effects o

19 Adaptations to stress can occur through epigenetic processes and may be a conduit for informing

20 ), are emerging as significant components of epigenetic processes and of gene networks involved in de

21 lers have emerged as prominent regulators of epigenetic processes and potential drivers of various hu

22 hylation has been implicated in a variety of epigenetic processes, and abnormal methylation patterns

23 on the neurobiology of stress and adaption, epigenetic processes, and disasters.

24 t not limited to common genetic variants and epigenetic processes, and may provide novel opportunitie

25 regulators, highlights how they may control epigenetic processes, and reveals the surprising roles o

26 g developmental plasticity involve molecular epigenetic processes, and their elucidation in the conte

27 briefly discussed and evidence is shown that epigenetic processes are also involved in the regulation

28 Epigenetic processes are implicated in cancer causation

29 Thus, not surprisingly, disruptions of these epigenetic processes are implicated in the pathogenesis

30 In addition, we discuss and speculate on how epigenetic processes are involved in creating transcript

31 ults suggest that multiple, partly redundant epigenetic processes are involved in preventing transpos

32 However, studies on neurobiological and epigenetic processes are just beginning, and more resear

33 The results here suggest that epigenetic processes are linked birth outcome and health

34 inflammation in adulthood are not known, but epigenetic processes are plausible candidates.

35 Epigenetic processes are primary candidates when searchi

36 External influences on epigenetic processes are seen in the effects of diet on

37 Epigenetic processes are widely viewed as a leading mech

38 of specialized chromatin domains in various epigenetic processes as diverse as dosage compensation,

39 Finally, we address the use of epigenetic processes as targets for novel antimalarial t

40 ct, in turn, contributes to misregulation of epigenetic processes as well as of cellular responses to

41 ess the efficacy of interventions to reverse epigenetic processes associated with the effects of earl

42 PI3K/AKT signaling can be a trigger of this epigenetic processing at many downstream target genes.

43 her, these results imply that Pol30p affects epigenetic processes by influencing the composition of c

44 gests a general direct governance of complex epigenetic processes by the machinery dedicated to pluri

45 in response to prolonged cold treatment, an epigenetic process called vernalization.

46 nome therefore contributes to cancer just as epigenetic process can cause point mutations and disable

47 Epigenetic processes can be induced in response to envir

48 rom traditional genetic predisposition, that epigenetic processes can persist across generations to p

49 Epigenetic processes control the packaging and function

50 ay a central role in chromatin structure and epigenetic processes controlling gene expression.

51 eir removal from DNA, RNA or histones, is an epigenetic process critical to transcriptional reprogram

52 y mediated through a range of highly dynamic epigenetic processes exhibiting temporal variation durin

53 e stages, it is maintained through heritable epigenetic processes following its establishment in matu

54 ve demonstrated that plant pathogens rely on epigenetic processes for this purpose.

55 Unexpectedly, genes involved in epigenetic processes formed another class of rapidly evo

56 It has been observed that misregulation of epigenetic processes has been associated with human dise

57 However, elucidating PMT-regulated epigenetic processes has been hampered by ambiguous know

58 RNA-directed regulation of epigenetic processes has recently emerged as an importan

59 A number of proteins involved in epigenetic processes have been characterized.

60 Recently, these two epigenetic processes have been dynamically linked.

61 coordinating developmental events, and many epigenetic processes have been implicated in cancer.

62 Epigenetic processes have been implicated in the pathoph

63 Over the last several years, epigenetic processes have emerged as important factors f

64 Herein, we provide a brief overview of epigenetic processes, how they are relevant to human hea

65 of chromatin interactions and for validating epigenetic processes identified in fixed cells.

66 ) has become well-recognized as an important epigenetic process in human health and disease.

67 The dynamics of this epigenetic process in mediating the transition from an a

68 In addition to gene repression, disrupting epigenetic process in the interploidy crosses also induc

69 Genomic imprinting is an epigenetic process in which the activity of a gene is de

70 or many brain diseases, and the discovery of epigenetic processes in germ cells has raised the possib

71 ent an excellent model for studying diabetic epigenetic processes in humans.

72 ed the underlying neural mechanisms of these epigenetic processes in individuals with no history of p

73 that are emerging as a model for studies of epigenetic processes in insects.

74 We tested whether heritable epigenetic processes in long-lived CD34(+) haematopoieti

75 work has highlighted an additional role for epigenetic processes in mediating susceptibility.

76 ly linked to ART, but in view of the role of epigenetic processes in the regulation of gene expressio

77 ed in DLBCL, suggesting disruption of normal epigenetic processes in these cells.

78 n vitro studies have demonstrated a role for epigenetic processes in var regulation.

79 In spite of intense interest in how altered epigenetic processes including DNA methylation may contr

80 it is unknown, whether it also affects other epigenetic processes, including DNA methylation and its

81 Epigenetic processes, including DNA methylation, change

82 hose regulation has been proposed to involve epigenetic processes, including histone modification.

83 Epigenetic processes, including methylation of DNA and p

84 elements, transcription factor function and epigenetic processes involved in the control of gene tra

85 provides an accurate depiction of the major epigenetic processes involving modification of DNA.

86 m by which histone PTMs modulate genetic and epigenetic processes is not fully understood.

87 The early environment, acting via epigenetic processes, is associated with differential ri

88 We describe the epigenetic processes, key findings in this specialty, cl

89 nd other epidemiologic studies indicate that epigenetic processes may play an important role in the p

90 This raises the possibility that an epigenetic process might operate during metastasis.

91 involved in sequence-specific alterations of epigenetic processes, mostly causing gene repression.

92 l gold nanomaterials have a direct effect on epigenetic process of TET-5hmC pathways and reveal criti

93 Studies are needed to investigate new epigenetic processes other than methylation and assess t

94 parenting affects the expression of genes by epigenetic processes.Parenting programmes are effective

95 A study in this issue suggests that epigenetic processes participate in myelin repair and th

96 Methylation is one of the major epigenetic processes pivotal to our understanding of car

97 Epigenetic processes play a key role in orchestrating tr

98 ating NSC identity and fate decisions and in epigenetic processes previously associated with both RES

99 articular focus will be given to genetic and epigenetic processes, priming effects on a cellular leve

100 ong with genomic signals encoded in the DNA, epigenetic processes regulate heritable gene expression

101 K4me3 interplays with other histone marks in epigenetic processes remains largely unknown.

102 inheritance of vertebrate centromeres is an epigenetic process requiring deposition of new CENP-A nu

103 he use of novel small molecule inhibitors of epigenetic processes specifically deregulated in cancer

104 Epigenetic processes such as DNA methylation may reflect

105 Enzymes involved in epigenetic processes such as methyltransferases or demet

106 DNA methylation is involved in epigenetic processes such as X-chromosome inactivation,

107 mediated at least partly through changes in epigenetic processes, such as alterations in DNA methyla

108 Aberrations in epigenetic processes, such as histone methylation, can c

109 Epigenetic processes, such as histone modifications and

110 Evidence from epigenetic processes, such as X chromosome inactivation

111 ach population are more characteristic of an epigenetic process than of specific local mutations. alt

112 ion, which must therefore be initiated by an epigenetic process that may involve a stochastic mechani

113 Cellular differentiation is an epigenetic process that requires specific and highly ord

114 Genomic imprinting is an epigenetic process that restricts gene expression to eit

115 Genomic imprinting in mammals is an epigenetic process that results in differential expressi

116 Genomic imprinting is an epigenetic process that results in the preferential sile

117 and memory of winter in plants, is a classic epigenetic process that, in Arabidopsis, involves PRC2-b

118 ly with DNA, their effects can be considered epigenetic processes that act upon genetically altered c

119 ous HMGN chromatin binding proteins and into epigenetic processes that affect the fidelity of the tra

120 ctivation and genomic imprinting are classic epigenetic processes that cause disease when not appropr

121 Identification of epigenetic processes that contribute to ASD development

122 Targeting epigenetic processes that control chromatin remodeling a

123 articular, it plays an important part in the epigenetic processes that control differentiation and de

124 nses of plants to stress are associated with epigenetic processes that govern chromatin accessibility

125 The epigenetic processes that regulate antibody-secreting pl

126 Epigenetic processes that regulate histone acetylation p

127 ve chromatin states, have an unclear role in epigenetic processes that underlie the persistence of ch

128 , aspects of gene regulation, especially the epigenetic processes that underpin organogenesis.

129 igenetic alterations, but also routinely use epigenetic processes to ensure their escape from chemoth

130 nal eukaryotic promoter mechanisms work with epigenetic processes to regulate developmental gene expr

131 nd transcription of CNR1 is modified through epigenetic processes under conditions of chronic stress.

132 e zebrafish system for in vivo monitoring of epigenetic processes using a genetic approach.

133 To systematically study this epigenetic process, we have generated a base-resolution,

134 RNA-directed DNA methylation (RdDM) is an epigenetic process whereby small interfering RNAs (siRNA

135 Understanding epigenetic processes will aid the development of antipar

136 gic disease incidence is DNA methylation, an epigenetic process with the capacity to integrate gene-e

137 rience, synaptic refinement and induction of epigenetic processes within specific neurons.