ライフサイエンスコーパス: neighboring cell

1 trans-membrane ligands on the membrane of a neighboring cell.

2 n of a cell while minimizing activation of a neighboring cell.

3 cell but also their interacting partners on neighboring cells.

4 of C. psittaci-infected cells and uninfected neighboring cells.

5 same cell surface, but not in trans between neighboring cells.

6 d, FAs reassociated with LDs and fluxed into neighboring cells.

7 myosin activities and from interactions with neighboring cells.

8 e NF-kappaB inhibitor for translocation into neighboring cells.

9 h and Delta leading to lateral inhibition of neighboring cells.

10 ow significant displacements with respect to neighboring cells.

11 ting products that are commonly available to neighboring cells.

12 c good" molecules that enhance the growth of neighboring cells.

13 11cRAL is carried out by enzyme pathways in neighboring cells.

14 self-processes, while allowing contact with neighboring cells.

15 although it plays a potent paracrine role in neighboring cells.

16 are selectively eliminated without affecting neighboring cells.

17 transient and coordinated elongation of the neighboring cells.

18 but promote the survival and reproduction of neighboring cells.

19 communication to coordinate polarity between neighboring cells.

20 onomous contact guidance information between neighboring cells.

21 h allows highly efficient virion delivery to neighboring cells.

22 which are deployed to inhibit the growth of neighboring cells.

23 en cell-associated, and thus only signals to neighboring cells.

24 rons resembled the preferred orientations of neighboring cells.

25 lay a microheterogeneity in phenotypes, even neighboring cells.

26 acting as a soluble pro-apoptotic factor in neighboring cells.

27 cilitating the transformation of one or more neighboring cells.

28 rcellular Frizzled-Vang interactions between neighboring cells.

29 FQ inhibits HCV cell-to-cell spread between neighboring cells.

30 us receptors in influenza virus-infected and neighboring cells.

31 ses by establishing physical contact between neighboring cells.

32 lf that is conductive and makes contact with neighboring cells.

33 ction forces applied by myosin motors and by neighboring cells.

34 teroid hormones on stem cells via the mature neighboring cells.

35 ellular space, producing oxidative stress in neighboring cells.

36 yosin and junctions and apical relaxation of neighboring cells.

37 nfluenced by signaling molecules produced by neighboring cells.

38 ons are distributed to minimize proximity to neighboring cells.

39 trafficking by tunneling nanotubes bridging neighboring cells.

40 r within the RA-synthesizing cells or in the neighboring cells.

41 , metabolites, and second messengers between neighboring cells.

42 hat a signal should be sensed equally by all neighboring cells.

43 ed by coupling of contractile forces between neighboring cells.

44 Of interest, this effect is propagated to neighboring cells.

45 kle on Frizzled requires Prickle activity in neighboring cells.

46 ractions mediated by secreted metabolites of neighboring cells.

47 to deliver cell wall-targeting effectors to neighboring cells.

48 ms of removing the cells from substrates and neighboring cells.

49 nt/detachment, and mechanical deformation of neighboring cells.

50 ng to increased mechanical conflicts between neighboring cells.

51 re observed in vivo from the injected to the neighboring cells.

52 embrane and cytoplasmic constituents between neighboring cells.

53 ashion and was independent of FcgammaRIIb on neighboring cells.

54 h increases the tumorigenic potential of the neighboring cells.

55 where they form asymmetric contacts between neighboring cells.

56 autonomous polarity disruptions in wild-type neighboring cells.

57 be more radiotoxic than the cross-dose from neighboring cells.

58 interactions between the beta(1) subunits of neighboring cells.

59 vements and the coherence of movements among neighboring cells.

60 nd to activate physiological target genes in neighboring cells.

61 argeted neuronal circuits without perturbing neighboring cells.

62 upon exchanges of molecular signals between neighboring cells.

63 -initiated degenerations and their affect on neighboring cells.

64 fluorescent protein-tagged SPCH, diffuse to neighboring cells.

65 and inflammation by influencing autophagy in neighboring cells.

66 enter apoptosis when separated from ECM and neighboring cells.

67 ort to cell soma, and detrimental effects on neighboring cells.

68 , and new contacts are formed between normal neighboring cells.

69 center that maintains stem cell identity in neighboring cells.

70 ive, and directed steering interactions with neighboring cells.

71 e cell, and from the other allele-or both-in neighboring cells.

72 sfer that contributes to pharmacodynamics of neighboring cells.

73 s leading and trailing edge dynamics between neighboring cells.

74 complexes that bridge the junctions between neighboring cells.

75 regates from brain cells and their uptake by neighboring cells.

76 a single virus that spreads inefficiently to neighboring cells.

77 the type VI secretion system (T6SS) to kill neighboring cells.

78 onds between beta-sheet-rich G5-E domains on neighboring cells.

79 plicases, and certain structural proteins to neighboring cells.

80 antly between the mediolateral interfaces of neighboring cells.

81 ere the global reporter is exchanged between neighboring cells.

82 d, budding is driven by proliferation of the neighboring cells.

83 ms orient their mitotic spindles relative to neighboring cells.

84 ence of exopolysaccharides (EPS) produced by neighboring cells.

85 e emerging cell and mechanical properties of neighboring cells.

86 acellular targets and affect the function of neighboring cells.

87 o the extracellular space and endocytosed by neighboring cells.

88 es a molecular warhead to inject toxins into neighboring cells.

89 anatomy of individual neurons packed between neighboring cells.

90 require communication and interplay between neighboring cells.

91 f IIF by enabling propagation of ice between neighboring cells, a process thought to be mediated by g

92 key ligand for activating Notch signaling in neighboring cells, a well-known mechanism for maintainin

93 s also determined relative to the fitness of neighboring cells: a cell that is of suboptimal fitness

94 human monocyte-derived dendritic cells alert neighboring cells about viral infection using diffusing

95 agen indicating that uptake of collagen from neighboring cells account for much of the fibrocyte coll

96 itch, giving rise to two distinct fates that neighboring cells adopt--Sender (high ligand, low recept

97 is polarity such that the apical surfaces of neighboring cells all point toward the central lumen.

98 Time-lapse videos showed that neighboring cells also underwent apoptosis, but expressi

99 anchored TWEAK can bind the Fn14 receptor on neighboring cells and activate the NF-kappaB signaling p

100 estigating the effects of NP damaged TAFs on neighboring cells and alteration of stromal structure af

101 , ATM stimulates cytokine secretion to alert neighboring cells and apoptosis to eliminate the afflict

102 gnaling can potentiate communication between neighboring cells and between cells separated by large d

103 Cells communicate with neighboring cells and condition their local environment

104 T6SS delivers effectors to neighboring cells and corresponding antagonistic protein

105 rved pathway that transduces signals between neighboring cells and determines major decisions in cell

106 Ab cross-linking delivered in trans between neighboring cells and did not require intracellular sign

107 t tumors trigger non-autonomous autophagy in neighboring cells and distant organs, thus fueling tumor

108 4% of myocytes were poorly synchronized with neighboring cells and exhibited asynchronous (AS) Ca tra

109 d cells, cadherins sustain the force between neighboring cells and integrins between cells and matrix

110 comparison of relative cell fitness between neighboring cells and is a striking example of tissue ad

111 ndle-like, elongated, and disassociated from neighboring cells and lost their original cobblestone mo

112 e coordinated acquisition of invasiveness by neighboring cells and mediate the communication between

113 gesting that glucose restriction may benefit neighboring cells and not only an individual cell.

114 le of transferring biological information to neighboring cells and play an active role in inflammator

115 cteria deploy a variety of toxins to inhibit neighboring cells and protect themselves from autoinhibi

116 s in lateral induction of Jag1 expression in neighboring cells and spreading of prosensory specificat

117 n the role of JNKs in compensatory growth of neighboring cells and stem cells, which may provide new

118 iently propagates motion information between neighboring cells and the background subtraction and sup

119 prevented the formation of contacts between neighboring cells and the subsequent downstream signalin

120 of mechanical and chemical cues presented by neighboring cells and the surrounding extracellular matr

121 verse signals that have a profound impact on neighboring cells and tissues.

122 ntegration of signals from cell adhesions to neighboring cells and to the extracellular matrix (ECM).

123 wnstream of cytochrome c release diffused to neighboring cells and ultimately killed the animals.

124 cells spread before forming connections with neighboring cells and where the microvascular plexus sta

125 eir primary function is to physically couple neighboring cells and withstand mechanical force.

126 protein distribution that are transmitted to neighboring cells, and asymmetric Ds localization result

127 both extrinsic cues, such as signaling from neighboring cells, and intrinsic factors, such as chroma

128 ovide FcgammaRIIB to cross-link anti-CD40 on neighboring cells, and only when this is blocked does th

129 morphological changes in adjacent regions of neighboring cells, and require their neighbors to coordi

130 e exchange of molecular cargo with nuclei of neighboring cells, and the gut lumen.

131 rins occur in vivo through interactions with neighboring cells, and these forces result in coordinate

132 rin-dependent contractile forces for pulling neighboring cells apart.

133 nels that electrically and chemically couple neighboring cells are formed when two hemichannels (conn

134 r using micropipette action and responses in neighboring cells are monitored with atomic force micros

135 g, and that geometrical interactions between neighboring cells are sufficient to generate ordered pat

136 ens junctions, and thus mechanically connect neighboring cells, are poorly understood.

137 whereby dying cells induce proliferation in neighboring cells as a means to restore homeostasis.

138 ctive infection through concentric layers of neighboring cells as cellular differentiation progressed

139 same cell or different genes into different neighboring cells as well as rapid cell selective functi

140 trophy, and facilitating the coordination of neighboring cell behaviors.

141 e a second influx of calcium that spreads to neighboring cells beyond the footprint of cavitation.

142 Cell surface ligands bind Notch on neighboring cells but require endocytosis to activate si

143 , KCs extend their cytoplasmic aprons toward neighboring cells, but anti-Dsg antibodies prevent assem

144 is a cooperative phenotype that benefits all neighboring cells, but in fact little is known about the

145 th interactions influencing polarity between neighboring cells, but not distant ones.

146 are mechanically coupled both to the ECM and neighboring cells, but the coordination and interdepende

147 starvation, they successfully competed with neighboring cells by autonomous and non-autonomous mecha

148 wnstream immune signaling pathways and alert neighboring cells by eliciting the expression of antivir

149 ssion affects the sphere-forming capacity of neighboring cells by indirectly enhancing expression of

150 endogenous molecules to salvage the injured neighboring cells by regulating apoptosis, inflammation,

151 EPI cells promote PE fate in neighboring cells by secreting Fgf4, and Oct4 is require

152 sicle-producing cells induce MV formation in neighboring cells by the enzymatic action of the release

153 al cells in a tissue is highly variable, and neighboring cells can grow at different rates.

154 influenza A virus (IAV) infectious cores to neighboring cells can occur within intercellular connect

155 tend protrusions that invade luminally along neighboring cell-cell junctions.

156 as a result of inelastic collisions between neighboring cells: collisions lead to a mutual alignment

157 plexes containing Vang or Frizzled to orient neighboring cells coordinately.

158 ell-to-cell spread and CD81 transfer between neighboring cells correlates with the capacity of target

159 calcium oscillation depends on the number of neighboring cells coupled via gap junctional intercellul

160 t fluorescent proteins (RFP, YFP and CFP) in neighboring cells, creating a 'Brainbow' of colors.

161 he cell (self-dose) and emitted by decays in neighboring cells (cross-dose), among other factors.

162 , suggesting that local interactions between neighboring cells determine their territories.

163 is a hallmark of VZV infection, infection of neighboring cells did not require cell-cell fusion; its

164 ease were both dampened, and the behavior of neighboring cells did not seem coordinated.

165 of dopamine neurotransmission, many VTA and neighboring cells display dynamic gene expression phenot

166 to a non-cell autonomous migration defect in neighboring cells, due at least in part to derepression

167 ocation likely enables rapid transmission to neighboring cells during infection in insects and repres

168 d that voltage spikes, which develop between neighboring cells during the spread of action potentials

169 ydrophobic boundaries can spatially separate neighboring cells effectively.

170 he central cell activates the FGF pathway in neighboring cells, ensuring that they form stable epithe

171 helix-loop-helix transcription factors into neighboring cells, especially in the backgrounds where t

172 nvironmental change, apoptotic targets allow neighboring cells, especially non-migratory epithelial c

173 evant for Notch signaling, which coordinates neighboring cell fates through direct cell-cell signalin

174 detectable transgene expression, first to EC neighboring cells, followed by propagation to neurons do

175 volves activation of purinergic receptors in neighboring cells following ATP release through hemichan

176 extracellular matrices or on the surfaces of neighboring cells for guidance of cell behavior and fate

177 live imaging we observed that variability of neighboring cell growth was reduced in ftsh4 sepals.

178 y organ cells are in continuous contact with neighboring cells, immune cells circulate throughout the

179 l provided by a groove can propagate between neighboring cells in a confluent monolayer, and that the

180 ered Ca(2+) signals that were transmitted to neighboring cells in a manner that scaled with agonist c

181 ard aggregate centroids, and alignment among neighboring cells in a radial direction to the nearest a

182 ronment to control migration and invasion of neighboring cells in breast cancer.

183 ion systems (T6SS) enable bacteria to engage neighboring cells in contact-dependent competition.

184 Using Brainbow methods to label neighboring cells in different colors, we find that Mull

185 biologically active cytokine for release to neighboring cells in soluble form.

186 rimeter of each cell and communicated across neighboring cells in the epithelial organization.

187 barely replicating well enough to spread to neighboring cells in the mouth.

188 Microvascular ECs instruct neighboring cells in their organ-specific vascular niche

189 regeneration are influenced by signals from neighboring cells, in particular Schwann cells of the pe

190 ll reactivity, while acquisition of HLA from neighboring cells increased NK cell reactivity.

191 At the same time, DeltaD activates Notch in neighboring cells, inhibiting atoh1a expression and ensu

192 which one cell expresses a vinnexin and the neighboring cell Innexin2 assemble functional junctions

193 g mediates short-range communication between neighboring cells instead of transmitting long-range inf

194 Syncytia form by incorporating neighboring cells into a single fused cell by cell wall

195 n and uptake of dead cells, thereby tricking neighboring cells into taking up the invader.

196 e change initiates epithelial folding, while neighboring cell invagination determines the final depth

197 Interdigitated growth of neighboring cells is an evolutionarily conserved develop

198 afficking may explain why viral infection of neighboring cells is established rapidly and efficiently

199 egulates the growth of LMSP cells via mature neighboring cells is unknown.

200 whether oscillations depend on signals from neighboring cells is unknown.

201 riptionally and phenotypically distinct from neighboring cells lacking stem cell antigen-1 or CD45 an

202 ate gp130, which in turn activates wtEGFR in neighboring cells, leading to enhanced rates of tumor gr

203 ironments, while short-range activation from neighboring cells leads to positive feedback.

204 lignifying cells themselves, but not in the neighboring cells, lignin was still deposited in the xyl

205 cultured cells that do not communicate with neighboring cells located in the same microenvironment a

206 interactions between the beta(1) subunits of neighboring cells maintain integrity of intercellular ju

207 is work we study cooperative effects between neighboring cells of different types, migrating in a maz

208 d from primary human tumors but is absent in neighboring cells of healthy tissue has resulted in sign

209 be specifically activated without activating neighboring cells of the same type or other types.

210 he basic processes of life, the influence of neighboring cells on the individual remains poorly under

211 ate myelin and that failed interactions with neighboring cells or factors in the diseased microenviro

212 ir nutrients and even organelles recycled by neighboring cells or phagocytes without local inflammati

213 ate multiple signals originating either from neighboring cells or systemically.

214 Although arbors of neighboring cells overlap extensively, imaging populatio

215 ocyte lumina interrupt the lateral domain of neighboring cells perpendicular to two basal domains and

216 tically different wiring of Hpo signaling in neighboring cell populations of distinct developmental o

217 interactions between neural crest cells and neighboring cell populations of ectodermal, endodermal a

218 otubule-free zones at the periclinal wall in neighboring cells predicted sites of new lobes.

219 usly, short-range lateral inhibition between neighboring cells produce competitive effects that are a

220 2 T cells are activated through their TCR by neighboring cells producing phosphoantigens.

221 Acquisition of plastids from neighboring cells provides a mechanism by which cells ma

222 Whereas opposing membranes from neighboring cells rapidly assemble junctional complexes,

223 transduce signals in response to ligands on neighboring cells, regulating metazoan lineage selection

224 tween density and genetic similarity between neighboring cells (relatedness).

225 ell interacts with the Notch receptor of its neighboring cell, releasing the Notch Intracellular Doma

226 e associated with the plasma membrane, while neighboring cells remain dark.

227 signaling between apoptotic cells and their neighboring cells remains largely unknown.

228 where the bacteria replicates and spreads to neighboring cells, requires a type 3 secretion system (T

229 s stimulation of EphA forward signaling from neighboring cells, resulting in enhanced basal glucagon

230 Targeted cell(s) are discriminated from neighboring cell(s) by focusing NIR light emitted from a

231 lecules into physically connected individual neighboring cells separately with high precision and low

232 Conversely, infected cells and neighboring cells showed increased ISG mRNA levels, demo

233 Dendrites readily overlapped those of neighboring cells, showing no evidence for dendritic til

234 uch as protein, mRNA, and microRNAs, between neighboring cells, such as in the tumor microenvironment

235 ously, possibly by paracrine influences from neighboring cells, such as the epi/pericardium.

236 ng macrophage-derived HB-EGF, enhance DDR in neighboring cells suffering from DNA damage.

237 p junction-permeable dyes did not diffuse to neighboring cells, suggesting that SP neurons were not s

238 eptors (aGPCRs) bind extracellular matrix or neighboring cell-surface ligands to regulate organ and t

239 rojected outside the hippocampus but avoided neighboring cells that give rise to the perforant pathwa

240 ccompanied by a major actin rearrangement in neighboring cells that maintained epithelium integrity b

241 e (S1P), which activates S1P(2) receptors in neighboring cells that seamlessly squeeze the cell out o

242 ty, requiring homotypic interactions between neighboring cells that ultimately regulate connectivity

243 de an important structural interface between neighboring cells, the actin cytoskeleton, and intracell

244 s that propagated electrical signals between neighboring cells, thereby activating voltage-gated Ca(2

245 ctor Sup35 persistently propagate and invade neighboring cells, thereby inducing a self-perpetuating

246 ithelial resident gammadelta T cells and the neighboring cells they support.

247 0 ms, which represents capacitive loading of neighboring cells through gap junctions.

248 ropose that LINKIN promotes adhesion between neighboring cells through its extracellular domain and r

249 h cells harboring the genetic changes and in neighboring cells through microenvironmental alterations

250 microenvironment to influence the growth of neighboring cells through the intercellular transfer of

251 ught to limit stem cell activity to directly neighboring cells, thus endowing them with unique proper

252 ogenicity and exported Wnt3a via exosomes to neighboring cells, thus modulating population equilibriu

253 This phenotype allows neighboring cells to both send and receive signals, ther

254 polarity proteins, crawling over and between neighboring cells to converge at diametrically opposed p

255 n, a cell destined for apoptosis signals its neighboring cells to form and contract a ring of actin a

256 rocesses) that interdigitate with those from neighboring cells to form the glomerular filtration barr

257 nteract within the cell membrane and between neighboring cells to form tight junction strands and con

258 oscillate autonomously, they coordinate with neighboring cells to generate a sweeping wave of cyclic

259 e, coordinate and process signals from their neighboring cells to generate diverse functional respons

260 s of enhanced motion then generate stress on neighboring cells to guide their migration.

261 from coordination of differentiation between neighboring cells to guiding axon growth during neurogen

262 is dominant: Delta-mediated signaling drives neighboring cells to have an opposite fate; Jagged-media

263 ed over a wide range of spatial scales, from neighboring cells to left versus right sides of the body

264 ands signal through one of four receptors on neighboring cells to mediate cell-cell communication and

265 wall hydrolases that act autonomously or on neighboring cells to modulate invasion of prey cells, ce

266 nteract with receptors on cholangiocytes and neighboring cells to modulate virtually every aspect of

267 acts as an autoinduction signal to stimulate neighboring cells to phenocopy Cfl1-expressing cells via

268 The release of cAMP allows neighboring cells to polarize and migrate directionally

269 Free aggregates then enter neighboring cells to seed further fibrillization.

270 development, Wnt-expressing cells can direct neighboring cells to take on specific fates.

271 and found that this resulted in the loss of neighboring cells to which they were coupled via GJs.

272 cases, the mechanical constraints imposed by neighboring cells triggered this efficient mode of migra

273 mmature OSNs, and the residual population of neighboring cell types, and then comparing these ratios

274 airs that have opposite expression levels in neighboring cell types, implying cell-type-specific role

275 Interactions among neighboring cells underpin many physiological processes

276 pon experiencing tensile forces generated by neighboring cells, unfolding of the probes leads to a la

277 totic bodies), which induce proliferation in neighboring cells upon contact.

278 he percentage of synchronous APs between two neighboring cells varied depending on the anatomical rel

279 related from one cell regulates autophagy in neighboring cells via an ancient immune signaling progra

280 confer interconnectivity of the cytoplasm in neighboring cells via docking of two connexons expressed

281 are polarized, motile, and interact with the neighboring cells via harmonic forces.

282 to communicate cellular health and danger to neighboring cells via purinergic signaling.

283 ScrA in neighboring cells was able to alter the activity of ScrC

284 hours postinfection (hpi), and infection of neighboring cells was monitored at 55 hpi.

285 te release, which could promote spillover to neighboring cells, whereas spatial vision requires that

286 forms intercellular bonds with cadherins on neighboring cells, whereas the cytoplasmic domain recrui

287 ning vesicles between the apoptotic cell and neighboring cells, which are absent or greatly reduced i

288 ic programs and by extrinsic signals sent by neighboring cells, which define the niche.

289 relies on well-ordered communication between neighboring cells, which is established and fine-tuned d

290 ization revealed correlated activation among neighboring cells, which, taken together with genetic da

291 eri is to prevent the spread of infection to neighboring cells while IpaH9.8 helps bacterial propagat

292 sing the tradeoff of maximizing contact with neighboring cells while minimizing shorts in the structu

293 hter cell inside, and cell engulfment, where neighboring cells with lower Carm1 levels compete for ou

294 identified a pattern of two, four, and eight neighboring cells with synchronized replication along th

295 llagen gel and align collagen fibers between neighboring cells within 24 h.

296 >25,000 cells as a function of the number of neighboring cells within a droplet and of time.

297 The coordinated polarization of neighboring cells within the plane of the tissue, known

298 ield of cells around the wound and spread to neighboring cells, within seconds of wounding.

299 based motility to move within cells and into neighboring cells without leaving the host cell cytosol.

300 umors, both cells with NFATc1 activation and neighboring cells without NFATc1 activation have signifi