ライフサイエンスコーパス: cell component

1 ent as they are isolated within the adherent cell component.

2 oma consisted primarily of the smooth muscle cell component.

3 aged by a Yaa-encoded abnormality in a non-T cell component.

4 s of T-cell type, often comprising a minor B-cell component.

5 a significantly larger central memory CD4 T-cell component.

6 1 signaling and markedly attenuated the stem cell component.

7 s and leverage the remaining signal as a new cell component.

8 the interaction of viral proteins with host cell components.

9 ansduction, and early biogenesis of critical cell components.

10 id bases, presumably at the expense of other cell components.

11 bryonal carcinoma with or without other germ cell components.

12 localization and interactions with specific cell components.

13 status and anemia or other peripheral blood cell components.

14 se to bile salts and various eukaryotic host cell components.

15 ced for eosinophils than for the other blood cell components.

16 ation to permit the degradation of apoptotic cell components.

17 stant cells, proteins were the most affected cell components.

18 le anchored to cells, thus acting as dynamic cell components.

19 transport processes and interactions between cell components.

20 to reveal the intracellular distribution of cell components.

21 the concerted action of both viral and host cell components.

22 s attributed to weak interactions with other cell components.

23 ns of unfolded polypeptide chains with other cell components.

24 ve mechanisms that limit or repair damage to cell components.

25 l in a biological environment, e.g. cells or cell components.

26 r proteins, which exert functions on diverse cell components.

27 y, difficult scale-up, and durability of the cell components.

28 tter revealing functions and interactions of cell components.

29 s complex networks of interactions with host cell components.

30 atory response driven by cytokine and immune cell components.

31 on the pairwise relationships between guard cell components.

32 0.05) after adjusting for age, sex and blood cell components.

33 ely applicable as a probe of other potential cell components.

34 r coupling and affect multiple smooth muscle cell components.

35 the concerted action of both viral and host cell components.

36 f nutrient deprivation and to remove damaged cell components.

37 can cause oxidative and nitrative damage to cell components.

38 uman leukocyte antigen (HLA) disparities and cell components.

39 Most cases were associated with red blood cell components; 4 were linked to whole blood-derived pl

40 d advanced renal cell carcinoma with a clear-cell component, a Karnofsky performance status of 70% or

41 undles actin filaments independently of host cell components, a previously unknown pathogen activity.

42 NPC) regulates the bidirectional movement of cell components across the nuclear envelope.

43 n the importance of polyamines in protecting cell components against damage.

44 Host cell components also can induce Cia protein secretion.

45 Such lines contain a specific CD4 and CD8 T-cell component and are capable of recognizing and lysing

46 row dysfunction has been observed in the red cell component and characterized by a persistent anemia,

47 fication, gene ontology (biological process, cell component and molecular function) and disease.

48 cancelled the early part of the rod-bipolar cell component and, for stimuli of moderate energy, made

49 sity, voltage hysteresis, mass of non-active cell components and anode/cathode mass ratio, and we mak

50 logical phenotypic characteristics of cells, cell components and cellular processes.

51 to induce autodegradation of differentiated cell components and damaged organelles.

52 transcriptomic integrative analyses revealed cell components and gene signatures enriched in differen

53 ntal and epileptic encephalopathies and many cell components and processes have been implicated in th

54 hrlichia infect leukocytes by hijacking host-cell components and processes.

55 r part and organelle lumen were enriched for cell components and protein binding, poly (A) RNA bindin

56 n explicit distinction between the different cell components and the types of interactions between th

57 ck specificity for particular cell types and cell components and thus cannot be used as a stand-alone

58 ve scotopic response (pSR), PII (the bipolar cell component) and PIII (the photoreceptor component).

59 ysial inflammation, often with a prominent B cell component, and endomysial dendritic cells.

60 tion of the host immune response by released cell components, and donation of DNA for natural transfo

61 exhibiting distinct interactions with other cell components, and relating to prognosis of immunother

62 ogramming to accommodate biosynthesis of new cell components, and similar alterations occur in cancer

63 Membranes are highly thermosensitive cell components, and the ability to modulate their fluid

64 d antibody reactions against whole cells and cell components, and then subjected selected antigens to

65 Sterols are important cell components, and variants of the conserved Niemann-P

66 uce proliferation of eosinophils while other cell components are declining.

67 Autophagy is a process whereby cell components are recycled, but it also serves as a de

68 l expansion behaviour between different fuel cell components are the main cause of this instability,

69 en oligomers and polymers with the different cell components are yet to be elucidated.

70 nsect cells differ in terms of residual host cell components as well as species-specific post-transla

71 relationship between proteins and different cell components, as well as the interactions between the

72 uno)fluorescence images with more than three cell components at a time, exploiting the Raman spectral

73 on of apocatalase does not require auxiliary cell components, but rapid assembly of active enzyme see

74 compatibility between the cathode and other cell components by introducing a thermal-expansion offse

75 diseases for which the sensing of microbial cell components by TLR1 is critical to innate immune def

76 dge of the rates at which proteins and other cell components can diffuse is crucial for the understan

77 Besides the tumor cell component, CCA is also characterized by a complex a

78 al controls, and highlight the importance of cell component change in deriving blood gene expression

79 s, driven by an underlying common pattern of cell component change, specifically an increase in myelo

80 d disease-specific models by leveraging both cell component changes and cell molecular state changes,

81 n test (BeLPT), bronchoalveolar lavage (BAL) cell components, chest radiography, pulmonary function t

82 ernative niches with different hematopoietic cell components compensate fluctuations of single cell t

83 The T cell component consists of 6 CD8 and 6 CD4 T cell epitop

84 The B cell component consists of just 3 B cell epitopes from t

85 sinophil count increased and the other blood cell components decreased as the CD4 cell count decrease

86 Matrix effects due to extracted cell components decreased the MC-LR linear range slightl

87 bloated dendritic melanocytes with enlarged cell components (dendrites, cell bodies, and nuclei) or

88 hniques, development of novel materials, and cell-component design.

89 ser beam we found that scattering from other cell components did not obscure diffraction from the cry

90 ction and to investigate production of other cell components, different serotypes and strains of GBS

91 tracted from a diffuse lymphoma with a large cell component (DLLC) that displayed double minute chrom

92 for this motor protein in the segregation of cell components during spermatogenesis.

93 retes effector proteins that manipulate host cell components, enabling it to evade lysosomal degradat

94 mors were highly vascularized, had a spindle cell component, expressed VEGF-C mRNA, and contained a m

95 role of guanidinium groups and two universal cell components: fatty acids and the cell membrane pH gr

96 me, the interaction can also take place with cell components from mammalian cells, leading to toxicit

97 Microbial cell components from the intestinal microbiota spread sy

98 f ionomer membranes, provided by the 3M Fuel Cells Component Group, as a function of the equivalent w

99 ronic infection, a significantly larger mast cell component in the granulomas of IL-5(-/-) mice.

100 Melanocyte is the major cell component in the uvea.

101 are essential for the biosynthesis of major cell components in all organisms.

102 rowth rate regulation is specific for select cell components in GBS, including beta C protein, alkali

103 en (Ag)-activated B cells; the major stromal cell components in lymphoid follicle are the follicular

104 been used as a probe to dissect the effector cell components in the KRNxNOD (K/BxN) arthritis model.

105 The instability of cell components in the presence of desired electrochemic

106 ncer cells/non-cancerous cells and cells/non-cell components in the TME support tumor initiation, dev

107 , CD8 T and NK cells are major proliferative cell components in the TME, the crosstalk between macrop

108 wledge on degradation mechanisms of the fuel cell components including the acid loss, polymer oxidati

109 erando distributions of six interacting fuel cell components (including void space) with the highest

110 CS also contains trace amounts of microbial cell components, including bacterial lipopolysaccharide.

111 ystem that specifically recognizes bacterial cell components is controversial and alternative functio

112 his technique to study other iron-containing cell components is discussed.

113 Compatibility of cell components is essential, and to ensure this, proper

114 However, further development of fuel cell components is necessary for them to become commerci

115 The coculture of the two cell components leads to elevated secretion and higher e

116 B, FtsZ, and MinD, which together with other cell components make up what is being called the bacteri

117 is disrupted, and the post-synaptic bipolar cell components mGluR6 and GPR179 become dissociated, su

118 or unresectable renal carcinoma with a clear-cell component, no prior systemic therapy, performance s

119 expression is restricted to the malignant T-cell component of AITL, and that 2HG is elevated in tumo

120 ss II (MHCII) molecules that drive the CD4 T cell component of autoimmune diseases has presented a fo

121 In contrast, the large cell component of follicular mixed cells (FMs) and folli

122 growth defect was specific to the red blood cell component of human blood, showing no difference fro

123 ller (NK) cells develop from the nonadherent cell component of NK long-term bone marrow (BM) cultures

124 As the stromal cell component of NK-LTBMC has been shown to support int

125 sorting, and quantitation of the nonadherent cell component of NK-LTBMC showed that NK precursors wer

126 t analysis confirmed that only the dendritic cell component of peripheral blood expressed high levels

127 are consistent with tolerance induction to a cell component of porcine islets induced by previous tra

128 erestingly, our data also suggest that the T cell component of the immune response exerted positive f

129 nment suggests that targeting the non-cancer-cell component of the tumour might form a basis for the

130 valuates the effect of the Abs on the immune cell component of the xenograft NOD/SCID hu-mouse model

131 ion was used to determine photoreceptor (P3) cell components of ERG photoresponses.

132 ons encoding secreted and surface-associated cell components of Salmonella enterica serovar Typhimuri

133 pressed in the epithelial and/or mesenchymal cell components of the hair follicle.

134 e the dermal T cell and epidermal Langerhans cell components of the skin immune system in our porcine

135 (TAMs) are highly heterogeneous and plastic cell components of the TME which can either promote tumo

136 Goblet cells are important secretory cell components of various epithelia, including the conj

137 lular senescence contributes to a "nonimmune cell" component of the tissue inflammatory response.

138 rom their physiological function in normal T cells, components of CD4+ T cell secretory pathways migh

139 are depleted of CD4-positive natural killer cells, components of the innate immune system that induc

140 larized Madin-Darby canine kidney epithelial cells, components of the plasma membrane fusion machiner

141 e induction of nuclear factor of activated T cells, components of the RNA polymerase II complex inclu

142 In wild-type cells, components of the Tol-Pal complex localize to the

143 ) proteins serve numerous essential roles in cells, components of their targeting and insertion pathw

144 Apaf-1, and caspase-9 in activated CD4(+) T cells--components of the apoptosis machinery that are in

145 tro study, we analyzed the influence of host cell components on SV40 capsid stability.

146 The Cell Component Ontology is freely available.

147 across many domains of life and extended our Cell Component Ontology to enable representation of the

148 ng signal (for instance, repairing damage to cell components or improving acquisition and use of grow

149 Host cell components prime these viral surface glycoproteins

150 Patients with metastatic RCC, with a clear cell component, prior nephrectomy, measurable disease, a

151 protein also in samples containing insoluble cell components reducing the need for additional centrif

152 bond strength, but reports now suggest that cell components remain behind after exposure to acute fo

153 200 years after its discovery, the neuronal cell components required for the activity of this deadly

154 pitopes and determine the CD4(+) or CD8(+) T cell component response.

155 We evaluated 29 stem cell components (SCCs) from 15 patients; for 9 SCCs, onl

156 Neither media nor cell component spectra from algae seriously interfere wi

157 e a systematic distinction between different cell components such as epigenetic factors, gene and tra

158 roposed model can also be relevant for other cell components such as mitochondria and plasmids, whose

159 living cells acting in concert with various cell components such as other proteins, cofactors, etc.

160 by means of information measures to identify cell components such as the nucleus, the endoplasmic ret

161 the xD strain of Amoeba proteus as required cell components, synthesize and export a large amount of

162 utoimmune disease that involves both B and T cell components, TACI-Fc treatment substantially inhibit

163 ular organization or interactions with other cell components that are not intrinsic to the isolated p

164 ify the bacterial virulence factors and host cell components that contribute to inflammation.

165 In particular, the T-cell components that contribute to systemic lupus erythe

166 ry steps of the viral life cycle and on host cell components that control the outcome of infection af

167 Protein kinase R (PKR) and RNase L are host cell components that function to contain viral spread af

168 ll and apparently interact with unknown host cell components that induce alterations in the actin cyt

169 we further characterize the necessary immune cell components that lead to systemic tumor immunity wit

170 cellular resistance to HIV-1 and reveal host cell components that modulate the uncoating of a retrovi

171 ment of small-scale, bio-inspired artificial cell components that recreate the function of key cellul

172 diagrams are used to display the individual cell components: the ohmic resistance of the AEM and the

173 as with leiomatous, hemangiomatous, and mast cell components; these tumors were quite distinct from t

174 RNA genomes often capture and redirect host cell components to assist in mechanisms particular to RN

175 iological models of varying complexity, from cell components to complex 3D cell cultures.

176 rgy pathways, and stabilization of essential cell components to lessen the need for repair or replace

177 The ability of cells or cell components to move in response to chemical signals

178 tion with antibody staining to identify host cell components to which MP and replicase accumulate in

179 Of the 15 million red blood cell components transfused annually in the United States

180 A bipolar (P2) cell component was also derived.

181 group of MS patients with a highly active B cell component was identified by the ELISpot assay.

182 The effect of growth rate on other cell components was also investigated.

183 n to degrade RNA in vitro in absence of host cell components was assessed.

184 and homogenized, and (111)In associated with cell components was determined using polyacrylamide gel

185 e the intricate regulation of this important cell component, we set out to identify genetic factors t

186 ter understand the interaction between these cell components, we carry out X-ray photoemission spectr

187 metastatic renal cell carcinoma with a clear-cell component were recruited from 175 hospitals and can

188 confirmed renal cell carcinoma with a clear-cell component were recruited from 175 hospitals and can

189 is based on the stochastic partitioning of a cell component with an optimal copy number.

190 germ cells, these maternal RNAs encode germ-cell components with critical functions in germ-cell spe

191 h the optimization of electrolytes and other cell components, with a particular emphasis on recent ad

192 om the spectroscopic data, one must identify cell components within the dataset.