ライフサイエンスコーパス: cellular microenvironment

1 hat promote the development of a profibrotic cellular microenvironment.

2 both the transformed cell and the supporting cellular microenvironment.

3 gulator of receptor-mediated activity in the cellular microenvironment.

4 ell death or proliferation, depending on the cellular microenvironment.

5 mical regions, cell-to-cell interactions and cellular microenvironment.

6 ditions and are stimulated by changes in the cellular microenvironment.

7 ic data, NICHES can be used to reflect local cellular microenvironment.

8 ce relies heavily on the optimization of the cellular microenvironment.

9 d improve understanding of the Gram-positive cellular microenvironment.

10 and/or phosphorylation, in an ever-changing cellular microenvironment.

11 these loop structures are influenced by the cellular microenvironment.

12 tracellular matrix (ECM) and to defining the cellular microenvironment.

13 sponds to signals from growth factors in the cellular microenvironment.

14 ssociated with and depend on cues from their cellular microenvironment.

15 simplicity, and minimal interference of the cellular microenvironment.

16 e likely reflect a complex regulation by the cellular microenvironment.

17 when chloroauric acid is introduced to their cellular microenvironment.

18 ct of complex interactions determined by the cellular microenvironment.

19 t techniques are often incompatible with the cellular microenvironment.

20 nd scaffolds, which collectively make up the cellular microenvironment.

21 etical mechanotransduction events within the cellular microenvironment.

22 exert a coordinated response to their unique cellular microenvironment.

23 in normal cells with possible effects on the cellular microenvironment.

24 teracting with the printed components of the cellular microenvironment.

25 nding to chromatin even in a proinflammatory cellular microenvironment.

26 ange and by other regulatory proteins in the cellular microenvironment.

27 regulatory factors that could be provided by cellular microenvironment.

28 xicant in producing the pathology in similar cellular microenvironments.

29 ranscriptional and histological features and cellular microenvironments.

30 deeper insights into tissue architecture and cellular microenvironments.

31 ion but neglected in the absence of specific cellular microenvironments.

32 gies intracellular pathogens employ to alter cellular microenvironments.

33 used as in vitro culture models to mimic 3D cellular microenvironments.

34 ize) into hydrogel templates to construct 3D cellular microenvironments.

35 chemotherapy on cell-intrinsic processes and cellular microenvironments.

36 sidation occurs sequentially and in distinct cellular microenvironments.

37 of native tissues and to construct in vitro cellular microenvironments.

38 ls depend on external cues provided by their cellular microenvironments [1-3].

39 ol organ morphogenesis by defining the local cellular microenvironment, a finding that has relevance

40 escribe a technology, referred to as arrayed cellular microenvironments (ACMEs), that allows for a hi

41 Cell-extrinsic variations in the cellular microenvironment affect cell growth rates but n

42 r biomaterial matrices provides a biomimetic cellular microenvironment and can yield critical insight

43 d neoplasia includes an increasingly complex cellular microenvironment and dynamic interactions betwe

44 rication tools that serve to both define the cellular microenvironment and enable parallelization of

45 w cells to sense their immediate surrounding cellular microenvironment and make appropriate behaviour

46 uid exchange allowing ease of changes in the cellular microenvironment and precise cell handling.

47 Through parametric variation of the cellular microenvironment and proteomic analysis of micr

48 insic factors as well as local cues from the cellular microenvironment and systemic signaling.

49 vides an important link between the external cellular microenvironment and the cell's response to cha

50 the bidirectional pathways that connect the cellular microenvironment and the genome.

51 The mechanical properties of the cellular microenvironment and their spatiotemporal varia

52 TRAILshort is shed in microvesicles into the cellular microenvironment and therefore confers TRAIL re

53 which regulate gene expression depending on cellular microenvironment and thus modify the physiology

54 signaling molecule capable of modulating the cellular microenvironment and thus, it may be important

55 close proximity can be used to regulate the cellular microenvironment and, as such, are promising ap

56 ffer in the viscoelastic properties of their cellular microenvironments and in their spatiotemporal r

57 on, resolving cell type composition, mapping cellular microenvironments and revealing spatial feature

58 oteins, thus altering the composition of the cellular "microenvironment" and thereby modulating devel

59 tivate the mTOR pathway, irrespective of the cellular microenvironment, and which play a requisite ro

60 Dramatic changes in the cellular microenvironment are also correlated with tumor

61 results demonstrate that alterations in the cellular microenvironment are central to the induction o

62 , we characterized the genomic, protein, and cellular microenvironment associated with BCC in compari

63 final destinations, they encounter different cellular microenvironments, but functional responses of

64 ucleus during wound repair, and altering the cellular microenvironment by inducing hypoxia increases

65 nanofibers can now establish intramyocardial cellular microenvironments by injection.

66 T) has greatly advanced our understanding of cellular microenvironments by integrating spatial inform

67 Their cellular microenvironment, called 'niche', regulates hem

68 The mechanics of the cellular microenvironment can be as critical as biochemi

69 ion, demonstrating how engineering the local cellular microenvironment can improve cell therapy.

70 ppressive molecules such as adenosine in the cellular microenvironment can reduce macrophage inflamma

71 hysiological contexts of gene expression and cellular microenvironment changes in development and dis

72 We determined the cellular microenvironment changes induced by co-exposure

73 To understand how cellular microenvironments composed of intricate microfi

74 The mechanics of the cellular microenvironment continuously modulates cell fu

75 easing evidence suggests that changes in the cellular microenvironment contribute to tumorigenesis, b

76 question that remains unanswered is how the cellular microenvironment contributes to angiogenesis.

77 Cellular microenvironments established by the spatial an

78 and the subsequent changes occurring in the cellular microenvironment following the vaccine expressi

79 , dynamic bioinks to recapitulate the native cellular microenvironment for disease modeling.

80 orm macroporous structures that provide a 3D cellular microenvironment for host immune cells.

81 eer molecular assemblies spatiotemporally in cellular microenvironment for inhibiting cancer cell gro

82 by which this retrovirus can create an ideal cellular microenvironment for its propagation and mainte

83 erplasia, increase the permissiveness of the cellular microenvironment for neoplastic expression of a

84 oped to engineer the physical aspects of the cellular microenvironment for stem cells, and these tool

85 of substantial amounts of NO and modify the cellular microenvironment (formation of the superoxide r

86 e bisphenol A and oxidizing agent (KBrO3) on cellular microenvironment, gene expression, and chromati

87 al connections between the components of the cellular microenvironment (growth factors, hormones, and

88 this regard since they provide a specialized cellular microenvironment guiding proper morphology and

89 Modulating the mechanical properties of the cellular microenvironment has already been used successf

90 tance of dynamic mechanical control over the cellular microenvironment has long been appreciated.

91 how material and chemical alterations in the cellular microenvironment have wide ranging effects on r

92 ve a role in the maintenance of the abnormal cellular microenvironment in breast cancer.

93 timuli and demonstrate the importance of the cellular microenvironment in determining phenotypic beha

94 The role of the cellular microenvironment in enabling metazoan tissue ge

95 Because diabetes alters the cellular microenvironment in many different types of tis

96 regulating the inflammatory response and the cellular microenvironment in pancreatitis.

97 ted by the mechano-chemical stiffness of the cellular microenvironment in primary cell culture.

98 emia, reside in a highly complex and dynamic cellular microenvironment in the bone marrow.

99 nity to explore the evolutionary role of the cellular microenvironment in tissue genesis.

100 microscale technologies for controlling the cellular microenvironment in vitro and for performing hi

101 Physical factors in the local cellular microenvironment, including cell shape and geom

102 However, the quantity of NO(*) and the cellular microenvironment influences the role of NO(*) i

103 cocultures in regulating various aspects of cellular microenvironment is discussed, as well as the a

104 ell communication, where rapid control of 3D cellular microenvironments is desired.

105 The accurate study of cellular microenvironments is limited by the lack of tec

106 njury results from severe disruptions in the cellular microenvironment leading to massive loss of neu

107 exogenous stimuli can transiently influence cellular microenvironments, leading to modulation of sig

108 Oxygen is an important component of the cellular microenvironment, mediating cell survival, diff

109 ells, the host tissue, and the molecular and cellular microenvironment modulate the morphology of the

110 Using a model based on the cellular microenvironment of lymphoid organs, the role o

111 for spatial imaging, this study examines the cellular microenvironment of MS lesions in secondary pro

112 Specific proteins of the non-cellular microenvironment of semen are potential markers

113 ons between individual virus strains and the cellular microenvironment of the individual ATM(-) line

114 ate peptides homing to the immunosuppressive cellular microenvironment of TNBC as a strategy for non-

115 ract with homeostatic chemokines, in defined cellular microenvironments of several organs.

116 Fibroblasts sculpt the architecture and cellular microenvironments of various tissues.

117 reciprocal dialogue between cells and their cellular microenvironments often governs the maintenance

118 Specialized cellular microenvironments, or 'niches', modulate stem c

119 ied forces and the biophysical nature of the cellular microenvironment play a central role in determi

120 and structural support from the surrounding cellular microenvironment play key roles in directing de

121 Together, our data demonstrate how the cellular microenvironment plays a central role in determ

122 recipients strongly suggests that the local cellular microenvironment plays a prominent role in regu

123 alteration in tumor phenotype indicates that cellular microenvironment plays an important role in def

124 Discrete cellular microenvironments regulate stem cell pools and

125 Spatial analysis identifies cellular microenvironments resembling early tertiary lym

126 Although the importance of the cellular microenvironment (soil) during invasion and met

127 Thus by altering the cellular microenvironment, stromelysin-1 can act as a na

128 ol over the spatiotemporal properties within cellular microenvironments, such as advances in the cont

129 ture of complex, experimentally inaccessible cellular microenvironments, such as the human intestine.

130 r initiation and development by altering the cellular microenvironment that facilitates tumor formati

131 f the immunological synapse is to generate a cellular microenvironment that favors the interactions o

132 in vitro to bind multiple components of the cellular microenvironment that function during wound hea

133 hemical mechanisms and parameters within the cellular microenvironment that initiate the onset of met

134 se of BPA was associated with changes in the cellular microenvironment that may promote survival.

135 dherin adhesion is thus a key element of the cellular microenvironment that provides both mechanical

136 iewed as an experimental manipulation of the cellular microenvironment that purportedly contains the

137 tropism of Wolbachia for the GSC niche, the cellular microenvironment that supports GSCs.

138 to map genes and cells on tissue and define cellular microenvironments that regulate homeostasis and

139 Little is known about the architecture of cellular microenvironments that support stem and precurs

140 hazard of multiple infections and the unique cellular microenvironment they create, potentially contr

141 In combination with strategies to engineer cellular microenvironments, this type of modeling approa

142 end beyond the synapse but can be limited to cellular microenvironments through uptake by target cell

143 ing blocks provides refined control over the cellular microenvironment, thus enabling functional tiss

144 oss-organelle interactions and tailoring the cellular microenvironment to enhance plant cytochrome P4

145 e increasingly been employed to modulate the cellular microenvironment to promote tissue regeneration

146 ls coordinate spindle orientation with their cellular microenvironment to regulate and direct cell fa

147 upports a focus on molecular interactions in cellular microenvironments to enhance understanding of i

148 ablish a transformative approach to modulate cellular microenvironment toward the goal of treating va

149 ication tools allow precise control over the cellular microenvironment towards stabilizing liver func

150 cortex provides a roadmap for evaluating the cellular microenvironments underlying AD and dementia.

151 olecular transverse relaxation informs local cellular microenvironment via molecule-environment inter

152 These events, presumably unsupported by the cellular microenvironment, were followed by gonocyte apo

153 engineering enables precise control over the cellular microenvironment, whereas microfluidics provide

154 can lead to oxygen redistribution within the cellular microenvironment, which should be considered as

155 rum, followed by analysis in a breast cancer cellular microenvironment, which yielded a current recov

156 technique that is useful for controlling the cellular microenvironment with subcellular resolution.

157 r microarrays, which should better mimic the cellular microenvironment, with sensitive immunofluoresc

158 pendent gene expression patterns in distinct cellular microenvironments within the kidney and predict