ライフサイエンスコーパス: cellular plasticity

1 re extremely poor prognosis, may result from cellular plasticity.

2 atteries but also control the restriction of cellular plasticity.

3 oliferative two-step process while retaining cellular plasticity.

4 ty is usually paralleled by a restriction of cellular plasticity.

5 about the molecular basis of their intrinsic cellular plasticity.

6 on (EMT) is a dynamic process that relies on cellular plasticity.

7 rder to be successful, require extraordinary cellular plasticity.

8 ypomethylated sites, enhancer formation, and cellular plasticity.

9 SMAD signaling, which is a key regulator of cellular plasticity.

10 e identity specification with restriction of cellular plasticity.

11 ators, including Fosl2, a key determinant of cellular plasticity.

12 enerative proliferation, growth and regulate cellular plasticity.

13 cordingly, modulation of I(H) contributes to cellular plasticity.

14 nd may aid in identifying genes required for cellular plasticity.

15 s proposed to be important in the control of cellular plasticity.

16 her maternal cells transferred in utero have cellular plasticity.

17 flects aberrant neurodevelopment or impaired cellular plasticity.

18 This extensive cellular plasticity acts as a key mechanism to respond t

19 vior, but the molecular substrates mediating cellular plasticity and activity in MSN subtypes in stre

20 uld facilitate the discovery of the basis of cellular plasticity and aid in the targeted programming

21 Cellular plasticity and de-differentiation are hallmarks

22 ular nucleotides to the development, growth, cellular plasticity and death of neural cells and the me

23 ation resulting from genetic lesions unleash cellular plasticity and favor oncogenic cellular reprogr

24 LPC lines provide novel tools for models of cellular plasticity and hepatocarcinogenesis, as well as

25 tigating the molecular mechanisms underlying cellular plasticity and human neurodegenerative diseases

26 enhanced excitability is a characteristic of cellular plasticity and learning-dependent modifications

27 oles for TLR3 as a suppressor of hippocampal cellular plasticity and memory retention.

28 cogenic context-dependent manner can enhance cellular plasticity and motility, in part by using trans

29 stablishing the causal relationships between cellular plasticity and motor adaptation has remained a

30 gest noise has a crucial role in maintaining cellular plasticity and organizing the blastocyst.

31 unravels some of the molecular mechanisms of cellular plasticity and reprogramming, and demonstrates

32 glucocorticoids and chronic stress regulate cellular plasticity and resilience and to inform the fut

33 ducible ISCs, extending our understanding of cellular plasticity and stemness.

34 addressed the role of RIM1alpha in aberrant cellular plasticity and structural reorganization after

35 tional repression of Nestin by p53 restricts cellular plasticity and tumorigenesis in liver cancer.

36 These findings demonstrate that REPs possess cellular plasticity, and suggest that the phenotypic tra

37 eractions between the cerebellar circuit and cellular plasticity at different sites.

38 elements underlying synaptic integration and cellular plasticity, but many features of these importan

39 dington posed nearly 60 years ago to explain cellular plasticity: Cells are residents of a vast "land

40 that adult fish osteoblasts display elevated cellular plasticity compared with mammalian bone-forming

41 Cellular plasticity contributes to the regenerative capa

42 ors, PKA, and PKC is a flexible mechanism of cellular plasticity controlling the firing behavior of c

43 rtate (NMDA) receptors mediate mechanisms of cellular plasticity critical for spatial learning in rat

44 Cellular plasticity during cancer metastasis is a major

45 ants are essential players in the control of cellular plasticity during development and in the adult

46 development share many properties including cellular plasticity, dynamic cell motility, and integral

47 pus, fate specification may act as a form of cellular plasticity for adapting to environmental change

48 lity that young mice might retain sufficient cellular plasticity for mitotic hair cell regeneration.

49 We also discuss the implications of cellular plasticity for regenerative medicine and for ca

50 These data suggest a higher level of cellular plasticity for the intact spinal cord than has

51 and provide a potential strategy to modulate cellular plasticity in a regenerative setting.

52 Cellular plasticity in adult organs is involved in both

53 nd the part played by chromatin structure in cellular plasticity in both development and cancer.

54 , network entropy predicts a higher level of cellular plasticity in cancer stem cell populations comp

55 a model in which the epigenome can modulate cellular plasticity in development and disease by regula

56 ification that regulates gene expression and cellular plasticity in development and disease.

57 monstrates that DNA methylation is a mark of cellular plasticity in HSCs.

58 as some glial cells, providing evidence for cellular plasticity in individual cell types.

59 nvestigate the causes underlying the lack of cellular plasticity in mammalian cells, we examined the

60 pon injury adult tissues can exhibit massive cellular plasticity in order to achieve proper tissue re

61 to identify transcriptional fingerprints of cellular plasticity in response to altered GABAergic inh

62 Identification of the mechanisms underlying cellular plasticity in salamander cells is important bec

63 In this review cellular plasticity in the adult liver and stomach will

64 provide evidence for a remarkable degree of cellular plasticity in the aged human retina.

65 olecular mechanism underlying behavioral and cellular plasticity in the brain following cocaine self-

66 lysine acetyltransferase (KAT) enzymes drive cellular plasticity in the context of somatic cell repro

67 this review, we will discuss the evidence on cellular plasticity in the liver, focusing our attention

68 e overturned dogma, provoked reevaluation of cellular plasticity in the mature brain and raised hopes

69 nAChR-mediated fast synaptic transmission to cellular plasticity in the neural circuits underlying ol

70 rtuins as key mediators of the molecular and cellular plasticity induced by drugs of abuse in NAc, an

71 Cellular plasticity is a state in which cancer cells exi

72 Coincident with the emergence of such cellular plasticity is an altered response to transformi

73 ell fate decisions in developmental systems, cellular plasticity is now emerging as a general theme i

74 en together, these findings demonstrate that cellular plasticity is regulated epigenetically, and tha

75 rtex by measuring both the thickness of, and cellular plasticity markers in, the AI with magnetic res

76 This cellular plasticity may indicate a possible endogenous r

77 Two key cellular plasticity mechanisms -Epithelial-to-Mesenchyma

78 d eye to activate cortex, but the underlying cellular plasticity mechanisms are incompletely understo

79 re arguably two of the most widely discussed cellular plasticity mechanisms for learning and memory.

80 ransition from the pre-CP to the CP, but the cellular plasticity mechanisms that underlie this change

81 s in memory are caused by the development of cellular plasticity mechanisms within the brain's memory

82 rain is made possible by a huge diversity of cellular plasticity mechanisms.

83 ng dissemination and colonization, including cellular plasticity, metabolic reprogramming, the abilit

84 remodeled during development, might underlie cellular plasticity more generally.

85 etwork for singing and may point to sites of cellular plasticity necessary for song maintenance.

86 netic program controlling the phenotypic and cellular plasticity of EMT remains unclear, one contribu

87 Our study demonstrates that the cellular plasticity of mammalian cardiomyocytes is the r

88 identifying the organization, function, and cellular plasticity of the ventral tegmental area (VTA)

89 offers an alternative means to the study of cellular plasticity, possibly in the context of drug scr

90 ver, the ability of drugs to induce forms of cellular plasticity related to behavioral sensitization

91 uce EMT, the complex process underlying such cellular plasticity remains poorly understood.

92 Increasing data suggest that impairments of cellular plasticity/resilience underlie the pathophysiol

93 conds, endowing neurons with a novel form of cellular plasticity shaping synaptic integration, dendri

94 salamander myofibers in numbers suitable for cellular plasticity studies.

95 behavioral outcomes caused by differences in cellular plasticity, subcellular signaling pathways, and

96 ould be involved in functional mechanisms of cellular plasticity such as synaptic depression that rep

97 Behavioural learning is mediated by cellular plasticity, such as changes in the strength of

98 Firing rate potentiation is a novel form of cellular plasticity that could contribute to motor learn

99 Understanding the cellular plasticity that enables urodeles to regenerate

100 ndocrine therapy results from an increase in cellular plasticity that permits the emergence of a horm

101 ressor genes can create a state of increased cellular plasticity that, when challenged with antiandro

102 ons in gene expression to support growth and cellular plasticity through incompletely understood mech

103 ggests a new design principle in controlling cellular plasticity through multiple intermediate cell f

104 instem circuits provide a means for relating cellular plasticity to behavioral gain control.

105 Increasing data suggest that impairments of cellular plasticity underlie the pathophysiology of bipo

106 In many songbirds, vocal learning-related cellular plasticity was thought to end following a devel

107 However, boundaries can also sharpen through cellular plasticity, with cell fate changes driven by up

108 ic factors plasmin(ogen) and fibrin(ogen) in cellular plasticity within adult tissues of the digestiv

109 ing that BMP signaling may govern aspects of cellular plasticity within tumor hierarchies.