ライフサイエンスコーパス: differentiation stage

1 nto aberrant pharyngeal cells (Morphogenesis/Differentiation stage).

2 each pathway depends on the T cell type and differentiation stage.

3 lationship of these effects with chondrocyte differentiation stage.

4 s not active in transformed cells of a later differentiation stage.

5 ome-wide signaling circuitry for each B cell differentiation stage.

6 iffusive state of CaV1.2 irrespective of the differentiation stage.

7 te slightly before the mesenchymal stem cell differentiation stage.

8 rentiation data, and in line with a sample's differentiation stage.

9 itional methods that are used to identify HC differentiation stage.

10 at the late of the commitment stage and the differentiation stage.

11 NAs and Oil-red O-staining at the end of the differentiation stage.

12 ines (IL-2, IFN-gamma, IL-17), regardless of differentiation stage.

13 orms associated with various cell growth and differentiation stages.

14 emales by the early (E16.5) and late (E18.5) differentiation stages.

15 ermed A, B and C) that represent progressive differentiation stages.

16 biases of bipolar cell subtype fates at late differentiation stages.

17 athways in distinct monocytic dendritic cell differentiation stages.

18 cell lineages are in a state of flux between differentiation stages.

19 c changes in response to various stimuli and differentiation stages.

20 and mineralization, likely acting at various differentiation stages.

21 tes and hypothalamic neurons across cellular differentiation stages.

22 lls exhibit phenotypes associated with early differentiation stages.

23 restriction of different clones to distinct differentiation stages.

24 ore proliferative keratinocytes in disturbed differentiation stages.

25 larval morphogenesis to reveal a sequence of differentiation stages.

26 and CD94/NKG2A contribute to define discrete differentiation stages.

27 o identify individual B cell development and differentiation stages.

28 s of a single-cell type rather than distinct differentiation stages.

29 sis of murine B cells at specific activation-differentiation stages.

30 g is not restricted to certain cell types or differentiation stages.

31 of primary mouse MKs representing successive differentiation stages.

32 cells from activated precursors in distinct differentiation stages.

33 ish strains representing distinct neutrophil differentiation stages, a high-resolution transcriptiona

34 Cell differentiation stage also influences Tet2 mutation resp

35 epithelial beta-catenin depletion during the differentiation stage also led to variable enamel defect

36 that CD45+ hematopoiesis peaks at late D14EB differentiation stages, although low-level CD45- erythro

37 Differentiation stage and immune-effector functions of t

38 y delivering IL-1 signaling during the early differentiation stage and integrating IL-23 signaling to

39 ns with SPIB occupancy, signatures of B-cell differentiation stage and potential pathogenetic mechani

40 istinct keratin (K) species as a function of differentiation stage and proliferative status, we used

41 dicate that CD8alphaalpha on T cells marks a differentiation stage and that it likely functions as a

42 + or CD8+ T cell lineages, varies with their differentiation stage and tissue localization, and canno

43 The level of JAM-C expression defines B-cell differentiation stages and allows the classification of

44 Methylation appears to change at specific differentiation stages and overlap with changes in trans

45 ween WT and Dicer KO iNKT cells at different differentiation stages and predicted to be targeted by t

46 vels in HD cells compared to controls across differentiation stages and protocols.

47 cel growth: a proliferative stage, a stomata differentiation stage, and a cell elongation stage.

48 workflow characterizes the cytoarchitecture, differentiation stage, and batch cultivation variation o

49 but the proportions of CD8(+) cells, T cell differentiation stage, and expression of costimulatory m

50 tors, including cell type, proliferation and differentiation stage, and extracellular stimuli.

51 ells depending on their tissue of origin and differentiation stage, and it affects their capacity to

52 t studies, we examined whether cellular age, differentiation stage, and/or tissue origin of primary c

53 e that encompasses a gradient of ductal cell differentiation stages, and another featuring cells with

54 s stages, change phenotypes by acting during differentiation stages, and facilitate new growth by act

55 among different cell types, mutation status, differentiation stages, and over time.

56 ession signatures defining various lineages, differentiation stages, and signaling pathways.

57 o the presence of many cell types at various differentiation stages, and stringent medium and growth

58 The differentiation stage- and tissue-specific MHC-bound pep

59 ter region (bcr) protein, as well as several differentiation stage- and tissue-specific self-antigens

60 xpressed during the immediate-early and late differentiation stages are Chlamydia-specific and have e

61 with proteasomes from myoblasts did not show differentiation stage-associated degradation of ID1 prot

62 TKI efficacy are unexpected outcomes of the differentiation stage at which this leukemia transforms.

63 To identify the differentiation stage at which ZBP-89 repression of the

64 t a correlation of ABCG2 gene expression and differentiation stage both in human and HCC derived cell

65 s levels of cortisol decreased CLDN1 in late differentiation stage but not in the early stage.

66 ation in brown algae is associated with cell differentiation stages, but is not necessarily linked to

67 molecularly distinct diseases, differing in differentiation stage (cell of origin), oncogenic mechan

68 I large, PreBII small, immature B) and their differentiation-stage characteristic gene expression pro

69 The molecular programs underlying the differentiation stage consist of highly regulated expres

70 ility of chicken ccn2 mRNA is regulated in a differentiation stage-dependent manner in chondrocytes.

71 growth factors that act in a cell type- and differentiation stage-dependent manner.

72 es from 15 human cell types and intermediate differentiation stages derived from human embryonic stem

73 Differentiation stage divides allergen-specific CD4(+) T

74 ey determinants of the dedifferentiation and differentiation stages during reprogramming.

75 Plasmodium falciparum involves several major differentiation stages, each requiring strict control of

76 Thus, primary human B cells at different differentiation stages exhibit distinct susceptibilities

77 c cell lines corresponding to the same early differentiation stages express abundant NELL2 mRNA.

78 id presentations and originated from various differentiation stages from immature progenitors through

79 Departing from four sebocyte differentiation stages generated by unsupervised cluster

80 but the proportions of different macrophage differentiation stages greatly differ between the two sp

81 nance of these cholinergic neurons after the differentiation stage have not been fully elucidated.

82 with mouse hematopoietic cells at different differentiation stages: hematopoietic stem cells, progen

83 We show that the accuracy of this differentiation stage identification was based on spectr

84 features through three case studies on cell differentiation stage identification, non-malignant cell

85 T lymphocytes with respect to their in vivo differentiation stages identifies a distinct subset of C

86 ects appear to be highly associated with the differentiation stage in stem/progenitor pools.

87 on an osteoblast-derived protease at a late differentiation stage in this culture model just prior t

88 osome abundance across different tissues and differentiation stages in mammals.

89 le of distinct TNFRs in initial and terminal differentiation stages in mTECs.

90 transcription factors in rare cell types and differentiation stages in vivo.

91 ucing functions in lymphocytes, precisely at differentiation stages in which V(D)J recombination occu

92 hat maintaining cell-cell contact during the differentiation stage, in combination with growth factor

93 Late differentiation stages, in contrast, showed extensive de

94 ognosis acute myeloid leukemia is increased, differentiation-stage inappropriate expression of the Ab

95 f a luteinized theca cell lineage at various differentiation stages including CD133(+), CD44(+), and

96 luminal epithelial cells in a continuous and differentiation stage-independent manner induces preneop

97 their response is governed primarily by the differentiation stage, independently of killer cell Ig-l

98 ing from early-activated to isotype-switched differentiation stages is both temporally and spatially

99 LYVE1(+) cavity macrophages that represent a differentiation stage just preceding expression of GATA6

100 Early differentiation stages mainly displayed enhancer demethy

101 velopment but lose this ability at a pivotal differentiation stage marked by synaptic maturation, cir

102 developing techniques to purify and profile differentiation stage-matched late erythroblast F cells

103 We analyzed the effect of differentiation stage of freshly isolated, mouse liver c

104 eveloping spinal cord have been focused on a differentiation stage of GRP cells.

105 In regenerative medicine applications, the differentiation stage of implanted stem cells must be op

106 identifies IL-26-producing cells as an early differentiation stage of T(H)17 cells that infiltrates p

107 of latent gene expression, depending on the differentiation stage of the cell.

108 rocess that varies according to the type and differentiation stage of the phagocyte.

109 ich is greatly determined by the context and differentiation stage of the responsive CD8(+) T cells.I

110 Our data provide evidence that the differentiation stage of the starting cell has a critica

111 Depending on the differentiation stage of the target cell, the local envi

112 ogenic pathway that is characteristic of the differentiation stage of transformed B cells.

113 essful, and no studies have investigated the differentiation stage of tumor PCs in patients with AL a

114 rved epigenetic alterations reflect distinct differentiation stages of H3.3 WT and H3.3 MUT stromal c

115 ach enables identifying the lineage-specific differentiation stages of hematopoietic cells on biomate

116 X was strongly increased during the terminal differentiation stages of human and mouse erythroblasts,

117 s are needed to enable identification of the differentiation stages of individual hematopoietic cells

118 ansition from the proliferative to the early differentiation stages of myogenesis.

119 sitively correlated with CTNNB1 in different differentiation stages of ovarian cancer cells: primary

120 ion is a general characteristic of the early differentiation stages of rodent trophoblast, given that

121 acterial genes involved in the infection and differentiation stages of symbiosis, we obtained genes e

122 to adapt to functional responses required by differentiation stages of the cell that bears them.

123 iate-early genes) and secondary (late genes) differentiation stages of the cycle.

124 potent stem cell (iPSC)-derived cells at two differentiation stages on peripheral nerve regeneration.

125 virtually all responding cells regardless of differentiation stage or profile of cytokine secretion,

126 PD1(+) T cells likely represent a particular differentiation stage or trafficking ability rather than

127 adation of RNA regardless of cell line type, differentiation stage, or passage number.

128 ion of cells from many embryos to study late differentiation stages, or individual early stage embryo

129 onregulatory and Treg populations of defined differentiation stages purified ex vivo from circulating

130 orced expression of polysialic acid in early differentiation stages reduces myotube formation and del

131 terns of viral gene expression, and cellular differentiation stage reflected by the phenotype and gen

132 cending (inside-out) placement, common early differentiation stage (regardless of size, location, cor

133 me T(H)17/T(H)1 population at early and late differentiation stages, respectively, whereas the CCR6(-

134 We observed differentiation stage-restricted egress of thymocytes fr

135 That LPS-response genes in B cells also have differentiation stage-restricted expression suggests tha

136 l LPS-response genes were also found to have differentiation stage-restricted expression within the B

137 cell lymphoma specimens two specific B cell differentiation stage signatures of germinal center B ce

138 but could be beneficial during the prolonged differentiation stage.SIGNIFICANCE STATEMENT Increasing

139 This impairment is differentiation stage specific, since germinal center B

140 Our results demonstrated differentiation stage-specific and dose-dependent roles

141 vel of transcriptional activation to produce differentiation stage-specific B cell responses.

142 tigations did not determine the mechanism of differentiation stage-specific CYBB and NCF2 transcripti

143 that Cux/CDP regulates cell-type-restricted, differentiation stage-specific Emu enhancer activity by

144 ferentiated mouse erythroleukemia mediates a differentiation stage-specific exon 16 splicing switch t

145 eloped a novel algorithm that leverages both differentiation stage-specific expression data and large

146 nregulating the targeted gene in tissue- and differentiation stage-specific fashion.

147 transcriptomic and chromatin analyses infer differentiation stage-specific gene regulatory networks.

148 Therefore, mechanisms involved in differentiation stage-specific HoxA10 tyrosine phosphory

149 nation codons into selected transcripts in a differentiation stage-specific manner, supporting the hy

150 ity are tightly controlled in a temporal and differentiation stage-specific manner.

151 e c-Fos, and they change their expression of differentiation stage-specific markers after treatment w

152 This differentiation stage-specific mechanism reflects a basi

153 This result was accomplished through a differentiation stage-specific reduction of apoptosis in

154 Using Ontogenet, we found differentiation stage-specific regulators of mouse hemat

155 lled by the concerted action of thousands of differentiation stage-specific sets of cis-elements whic

156 Moreover, differentiation stage-specific splicing "switches" may a

157 onal complex stability requires an erythroid differentiation stage-specific splicing switch promoting

158 studies identified distinct brown adipocyte differentiation stage-specific, NRRE-1-protein complexes

159 scriptome-wide variability between donors is differentiation stage-specific.

160 Appropriate differentiation-stage-specific application of Gsk3 inhib

161 Also, we found that differentiation-stage-specific ARIH2 transcription was r

162 s, we show that MLL4 exhibits cell-type- and differentiation-stage-specific genomic binding and is pr

163 Our results reveal complex, differentiation-stage-specific interactions between indi

164 lineage, the mechanisms of apoptosis may be differentiation-stage-specific.

165 novo-derived motif signatures at all of the differentiation stages studied (ie, hematopoietic stem c

166 Bmp signaling by Bmpr1a depletion during the differentiation stage switched differentiation of crown

167 s better discriminate cell type identity and differentiation stage than gene expression profiles alon

168 Utilizing these markers, we identified the differentiation stages the spindle capsule cells undergo

169 pared with M-ERRgammaWT myocytes at the same differentiation stage, the glucose oxidation rate was re

170 As and miRNA signatures allows specific cell-differentiation stages to be identified, and is a powerf

171 uses global information across all cells and differentiation stages to infer coherent trajectories fr

172 e expression profile is linked to the memory differentiation stage, we analyzed the degree of polyfun

173 d memory CD8(+) T cells from a wide range of differentiation stages were capable of significantly inh

174 d whether surface phenotypes associated with differentiation stages were predictably associated with

175 steoclastogenesis, and chondrogenesis at all differentiation stages, while TGF-betas play different r

176 es are needed to facilitate correlating cell differentiation stage with location in the culture syste

177 The TRA subsets aligned along progressive differentiation stages within the mature mTEC subset and