ライフサイエンスコーパス: adjacent cell

1 GF signaling in trans from the surface of an adjacent cell.

2 ersing the spin, we move the spinner into an adjacent cell.

3 h that each cell interacted with exactly one adjacent cell.

4 ls controlling behavioral output relative to adjacent cells.

5 e amnioserosa are apparently asynchronous in adjacent cells.

6 to translocate toxic effector proteins into adjacent cells.

7 axons and failed to spread from axon tips to adjacent cells.

8 trongly guided by physical forces imposed by adjacent cells.

9 evolution and mediates communication between adjacent cells.

10 spread from the silencing initiation site to adjacent cells.

11 nautonomously regulated by the properties of adjacent cells.

12 on the surface, and wide connection with the adjacent cells.

13 mpact the expression of these genes in these adjacent cells.

14 herin that forms homodimeric bridges between adjacent cells.

15 sin, and intercellular adhesions interfacing adjacent cells.

16 transfer of ions and small molecules between adjacent cells.

17 with both the extracellular matrix (ECM) and adjacent cells.

18 through linked hemichannels from each of two adjacent cells.

19 w bacteria to exit from host cells to infect adjacent cells.

20 ane proteins that form gap junctions between adjacent cells.

21 intercellular pores linking the cytoplasm of adjacent cells.

22 raction between the contractile ring and the adjacent cells.

23 elium disrupts AJs but only when depleted in adjacent cells.

24 f the plasma membrane, which are engulfed by adjacent cells.

25 to the apoplasm, and subsequent import into adjacent cells.

26 ght asymmetries in the Dl or N activities of adjacent cells.

27 passage of ions and small molecules between adjacent cells.

28 enic requirements and negative regulation by adjacent cells.

29 es specifying the probabilities of moving to adjacent cells.

30 capacity to unload cholesterol directly onto adjacent cells.

31 align themselves with similar structures in adjacent cells.

32 sion follows reception of the Wnt8 ligand by adjacent cells.

33 l and are aligned with similar structures in adjacent cells.

34 rmed by the docking of two hemichannels from adjacent cells.

35 ve lost viability when the fungus moved into adjacent cells.

36 ular channels that connect the cytoplasms of adjacent cells.

37 forms due to a difference in Notch levels in adjacent cells.

38 gnate receptors expressed within the same or adjacent cells.

39 the proximodistal junctional region between adjacent cells.

40 may be involved in the communication between adjacent cells.

41 asm; however, mutant virus did not spread to adjacent cells.

42 innervation may influence gene expression in adjacent cells.

43 in from the cytoplasm to the cell surface of adjacent cells.

44 cell contractility, and forces generated by adjacent cells.

45 elopment by regulating communication between adjacent cells.

46 iate the gated transfer of molecules between adjacent cells.

47 ase on the originally triggered cells and on adjacent cells.

48 shape by linking the actin cytoskeletons of adjacent cells.

49 unctional hemichannels, one from each of the adjacent cells.

50 e TMV replication immediately after entry to adjacent cells.

51 ing ions and small molecules to move between adjacent cells.

52 ing appears necessary for synchronization of adjacent cells.

53 syndecan-2-mediated inside-out signaling to adjacent cells.

54 ion of proteins and their ability to move to adjacent cells.

55 ssion of nectin-1 in trans on the surface of adjacent cells.

56 m and propelled by actin-based motility into adjacent cells.

57 one cell may activate signaling processes in adjacent cells.

58 nt cells by interconnecting the cytoplasm of adjacent cells.

59 e Ca(2+) firing sites in the same cell or in adjacent cells.

60 with its transmembrane ligands expressed on adjacent cells.

61 specific sites of contact (plaques) between adjacent cells.

62 hrinA1, which is anchored to the membrane of adjacent cells.

63 tion and the coalescing of cell cytoplasm of adjacent cells.

64 le tethers that bind to surface receptors on adjacent cells.

65 erentiation and promote the lignification of adjacent cells.

66 f attachment of the myofilament apparatus to adjacent cells.

67 s and their complex interaction with MCTs in adjacent cells.

68 ell adhesion by linking the cytoskeletons of adjacent cells.

69 ons, here termed listeriopods, and spread to adjacent cells.

70 r protoplast and at the radial walls between adjacent cells.

71 walls and interconnect the cytoplasm between adjacent cells.

72 JAM and cell surface receptors expressed on adjacent cells.

73 provide for the direct communication between adjacent cells.

74 th those less fit being eliminated by fitter adjacent cells.

75 omeostasis, supporting communication between adjacent cells.

76 g the anticlinal pavement cell walls between adjacent cells.

77 all positively charged ions to cross between adjacent cells.

78 ch, enabling them to trans-activate Notch on adjacent cells.

79 n the extracellular matrix or the surface of adjacent cells.

80 cal microtubules and actin filaments between adjacent cells.

81 ation but also promote stem cell division in adjacent cells.

82 migrates and accumulates at lower levels in adjacent cells.

83 ent cell separation and hydraulic changes in adjacent cells.

84 evels of WUS protein in the rib meristem and adjacent cells.

85 lasma membrane protrusions that project into adjacent cells.

86 llular matrix, or tethered to the surface of adjacent cells.

87 correlation was found between the events in adjacent cells.

88 the rib meristem and lower nuclear levels in adjacent cells.

89 lation was found between the firing sites in adjacent cells.

90 preserving stable adherens junctions between adjacent cells.

91 the host cytosol and for bacterial spread to adjacent cells.

92 g channels that penetrate the septum between adjacent cells.

93 mediate intercellular communication between adjacent cells.

94 chemical cues in both stimulated tissues and adjacent cells.

95 both within the plasma membrane and between adjacent cells.

96 r by the adhesion protein surface-exposed in adjacent cells.

97 hanically couples the actin cytoskeletons of adjacent cells.

98 itude and diversity between HCV-infected and adjacent cells.

99 by interacting in the intercellular space of adjacent cells.

100 escaped and gained access to the cytosol of adjacent cells.

101 the delivery of toxic effector proteins into adjacent cells(4,5).

102 lar motors(1-3), extrinsic forces exerted by adjacent cells(4-7) and mechanical resistance forces due

103 e ability of HIV-1 to mediate fusion between adjacent cells, a process referred to as "fusion-from-wi

104 Adjacent cells adopted alteration in their expression pr

105 nt, they also function as extensions between adjacent cells along cell-cell junctions.

106 ons that allow exchange of molecules between adjacent cells also seem to have an important role.

107 of an electrical axo-axonal coupling between adjacent cells and a reciprocal inhibition between the m

108 junction channels span the membranes of two adjacent cells and allow the gated transit of molecules

109 lls direct the spindle orientations of their adjacent cells and are consistent with a mechanism of or

110 nd messengers, and small metabolites between adjacent cells and are formed by two unrelated protein f

111 he mid-pericarp layer (MPL), are larger than adjacent cells and are highly branched.

112 ntracellular replication before spreading to adjacent cells and causing extensive cellular damage.

113 essential for mediating interactions between adjacent cells and coordinating cellular and organ respo

114 The T6SS punctures adjacent cells and delivers toxic effector proteins that

115 dium and these vesicles can communicate with adjacent cells and even cells of the immune system.

116 cribed in glioma cells can be transferred to adjacent cells and induces targeted inhibition of protei

117 two processes: cell-to-cell movement between adjacent cells and long-distance movement that allows th

118 components, and possibly other proteins, in adjacent cells and may therefore directly mediate these

119 R-1260b could act as a transfer messenger to adjacent cells and mediate the infiltrative growth of MF

120 an organizer that promotes stem cell fate in adjacent cells and patterns the surrounding stem cell ni

121 dherins function to promote adhesion between adjacent cells and play critical roles in such cellular

122 lasma membrane protrusions that project into adjacent cells and resolve into vacuoles from which the

123 Cellular response to physical cues from adjacent cells and the extracellular matrix leads to a d

124 interactions with other surface molecules on adjacent cells and through these interactions initiate s

125 sion of sessile epithelial cells attached to adjacent cells and to the basement membrane into dissoci

126 , and remodeling through direct contact with adjacent cells and via paracrine and endocrine factors t

127 tution by stem cells, paracrine effects from adjacent cells, and circulating anti-aging molecules may

128 y measuring gap sizes, angles formed between adjacent cells, and curvatures of cell surfaces at gaps.

129 ular expansion and coordination of growth of adjacent cells, and defects in karyokinesis and cytokine

130 ion, intracellular multiplication, spread to adjacent cells, and induction of brisk inflammatory resp

131 th the cell surface, can act on unstimulated adjacent cells, and is specifically inhibited by TIMP-3,

132 cells, replicate intracellularly, spread to adjacent cells, and provoke an intense inflammatory resp

133 ell-fate decisions--including cell death--in adjacent cells, and raise the possibility that they do s

134 ic organization, membrane apposition between adjacent cells, and structure and distribution of pili a

135 this localization is not coordinated between adjacent cells, and the crescents subsequently are lost

136 1 in PECs can also affect gene expression in adjacent cells, and this effect is abolished by the T164

137 chsous (Ds), which form heterodimers between adjacent cells; and the Golgi kinase Four-jointed (Fj),

138 move laterally, they are pushed sideways by adjacent cells; and when cells move forward, they are pu

139 hesions of cells to extracellular matrix and adjacent cells are mediated by integrins and VE-cadherin

140 polarized'), or when tight junctions between adjacent cells are opened, heregulin-alpha activates its

141 Remarkably, the sarcomeres of adjacent cells are precisely paired across the junctiona

142 Fate maps show that polarizing region and adjacent cells are specified in parallel through a serie

143 ular matrix proteins and counterreceptors on adjacent cells, are implicated in synapse maturation and

144 tem, and find that they are not expressed in adjacent cells as would have been expected.

145 m of an infected cell suddenly flows into an adjacent cell, as visualized through wild-type MV-expres

146 Shigella protrusions invade adjacent cells at junctions where three cells meet, the

147 rectly through information transmission from adjacent cells at the peripheral innervation area.

148 secreted Nkx3.1 protein can translocate into adjacent cells, bind to the regulatory sequence of Nkx3.

149 n the overexpressing cell and in immediately adjacent cells but not in cells farther away.

150 rmed membrane protrusions that extended into adjacent cells, but the protrusions rarely resolved into

151 olipases C (PLCs) also resulted in spread to adjacent cells, but these triple mutants became trapped

152 influence the effects of mineral coatings on adjacent cells, but to date it has not been practical to

153 g the propagation of second messengers among adjacent cells by connexin43-gap junctions.

154 ving epithelial cell to adapt to the loss of adjacent cells by dedifferentiating and proliferating.

155 s), which are proteinaceous channels, couple adjacent cells by permitting direct exchange of intracel

156 hannels (GJCs) that connect the cytoplasm of adjacent cells by the end-to-end docking of two Cx hemic

157 r matrix (ECM), or cell-surface molecules on adjacent cells can activate signaling pathways that comm

158 we discuss recent work that shows that tumor-adjacent cells can respond to genotoxic stress by activa

159 Strikingly, adjacent cells can take up DEK secreted from synovial ma

160 systematic map of the visual field, in which adjacent cell clusters represent adjacent points of visu

161 lls indicated the presence of Cx31.9 between adjacent cells, consistent with its localization to gap

162 res maintenance of adhesive contacts between adjacent cells, coordination of polarized cell protrusio

163 ructs causes induction of ectopic Endo 16 in adjacent cells, demonstrating further that Pmar1 control

164 In this way, cycling cells favor regrowth in adjacent cells deprived of polyamines.

165 The molecular mechanism to understand why adjacent cells develop into bile ducts or grow actively

166 sition zymogen granules, or communicate with adjacent cells, disrupting pancreatic function.

167 Although adjacent cells express both Dl ligand and N receptor, si

168 lt in a checkerboard spatial pattern whereby adjacent cells express opposing levels of Notch and Delt

169 is of cortical peritubular capillaries, with adjacent cells expressing pericyte-like markers; we spec

170 However, bacteria in adjacent cells failed to multiply and were found in doub

171 rm and are required for the specification of adjacent cell fates.

172 that is critical for inducing and patterning adjacent cell fates.

173 e cell lineage as the guard cells or from an adjacent cell file.

174 fter breakdown of primary cell walls between adjacent cell files at the site of detachment.

175 Delimiting LAX3 expression to two adjacent cell files overlying new LRP is crucial to ensu

176 erent ability of adherent cells to move into adjacent cell-free areas, thus providing information on

177 els that physically connect the cytoplasm of adjacent cells, gap junctions permit transport of a dive

178 which target the tumor-interacting and tumor-adjacent cells, have overcome some of these challenges,

179 diate fusion between the plasma membranes of adjacent cells, HIV-1 enters through an endocytic pathwa

180 rmation and movement of VRCs was repeated in adjacent cells in 3-4 h vs. 20 h from primary infected c

181 By acting as a dynamic link between adjacent cells in a monolayer, adherens junctions (AJs)

182 vesicular stomatitis virus (VSV) spread, to adjacent cells in a monolayer.

183 OA cartilage reflect the increased number of adjacent cells in clusters that are able to interact dir

184 scopy confirmed disorganized capillaries and adjacent cells in cortical peritubular spaces in mutant

185 ting the transfer of small molecules between adjacent cells in culture, indicating its potential role

186 tion cell death suppress RNA interference in adjacent cells in Drosophila melanogaster.

187 induced a physical separation of the TJs of adjacent cells in immunofluorescence staining of the TJ

188 Propensity varied ~10-fold between adjacent cells in salt-and-pepper fashion, indicating su

189 t neurons, only JHM.SD spread efficiently to adjacent cells in the absence of CEACAM1a.

190 Thus, macrophages transfer cholesterol to adjacent cells in the absence of serum or HDL.

191 -localize in the same cells but localized in adjacent cells in the colon.

192 Although cytoplasmic bridges between adjacent cells in the filaments of nitrogen-fixing cyano

193 g rapid exchange of Tf molecules between two adjacent cells in the monolayer.

194 actions, and (2) interactions are limited to adjacent cells in the mosaic.

195 of cyclic gene expression coordination among adjacent cells in the presomitic mesoderm.

196 ected by three promoters and this results in adjacent cells in the same tissue containing different i

197 lcholine that triggers the depolarization of adjacent cells in the spinal cord.

198 glycolysis, and provides a source of FA for adjacent cells in the vessel wall or tissues.

199 separated by a completed peptidoglycan wall, adjacent cells in these chains were often compartmentali

200 osely with the extracellular matrix and with adjacent cells including pericytes and smooth muscle cel

201 ceptors to ephrinB ligands on the surface of adjacent cells initiates signaling cascades that regulat

202 oordinating growth and communication between adjacent cells is a critical yet poorly understood aspec

203 tems indicate that localised signalling from adjacent cells is a general mechanism for defining the p

204 icles into axons and extracellular spread to adjacent cells is fundamentally important for identifyin

205 Gap junction communication between adjacent cells is known to be vital during embryogenesis

206 t that homophilic interaction of Echinoid on adjacent cells is necessary for its function.

207 issemination of virus from infected cells to adjacent cells is promoted by the polymerization of acti

208 ROS production in adjacent cells is triggered by extracellular ROS signals

209 h activity and duct lineage specification in adjacent cells lacking jag1b and jag2b expression.

210 in the stele, the SHR protein moves into an adjacent cell layer, where it specifies endodermal cell

211 The vertebrate liver and heart arise from adjacent cell layers in the anterior lateral (AL) endode

212 h whether GLK proteins are able to influence adjacent cell layers, we used tissue-specific promoters

213 The ensuing engagement of Fas by FasL on adjacent cells leads to apoptosis.

214 Mechanical cross-talk between adjacent cells leads to enhancement of matrix reorganiza

215 ells; and why junctional buttressing between adjacent cells may benefit renal epithelium in maximizin

216 y growing cells, the resistance to stress in adjacent cells mechanically isolates rapidly growing cel

217 the talks revealed how interactions between adjacent cells mediated by Notch regulate development an

218 response to laser pulsing, forming pores in adjacent cell membranes through which cargo is gently dr

219 metrically, instructing unequal responses in adjacent cell membranes to establish molecular asymmetry

220 sical association between Integrin alpha5 on adjacent cell membranes.

221 cell by a mechanism involving the fusion of adjacent cell membranes.

222 echanism by which mechanical stresses signal adjacent cells not only within the epithelium, but other

223 as a diffusible signal for the induction in adjacent cells of genes encoding cellular protectants su

224 s distributes in a concentration gradient to adjacent cells of the anterior compartment.

225 ng a negative regulator, CLAVATA3 (CLV3), in adjacent cells of the central zone (CZ).

226 ted specifically at the interface of the two adjacent cells of the developing sporangium, the mother

227 idney, while the tip cells interact with the adjacent cells of the metanephric mesenchyme, inducing t

228 ust interact with connexin(s) present in the adjacent cells of the nonpigmented epithelium.

229 subsequent uptake of lysosomal hydrolases by adjacent cells, often referred to as "cross-correction."

230 suming that information is exchanged between adjacent cells only, under the guidance of gene expressi

231 thod as selected cells could differ from the adjacent cells or could belong to the same cell populati

232 role in the development and/or regulation of adjacent cells or tissues.

233 ls throughout the infection or can spread to adjacent cells over time.

234 pithelial cells in culture make contact with adjacent cells, PLAC-24 is specifically recruited to the

235 eractions between Eph kinases and ephrins on adjacent cells play a central role in neuronal patternin

236 ell by transfer from the polar septum to the adjacent cell pole where SpoIIE is protected from proteo

237 nd neuronal migration, inhibit the mixing of adjacent cell populations in the developing optic lobe.

238 essential for the docking of connexons from adjacent cells, preventing the formation of functional g

239 sing cells to GCV, and its overexpression in adjacent cells protects them from bystander cell death.

240 nal (R3) activates the Notch receptor in the adjacent cell (R4) via the ligand Delta, resulting in R3

241 Prior to activation, Itgalpha5 expressed on adjacent cells reciprocally and non-cell-autonomously in

242 e model based solely on interactions between adjacent cells reproduced 99% of the spatial structure a

243 F S/L gene lost adherence to the stratum and adjacent cells, resulting in an altered plaque morpholog

244 ction foci progressively expanded locally to adjacent cells, resulting in meningitis, choroiditis, en

245 the contractile acto-myosin cytoskeletons of adjacent cells, serving as a tension-transducer.

246 ization at specific sites of contact between adjacent cells showed significant reduction in the high-

247 ade side-to-side contacts, FrzCD clusters in adjacent cells showed transient alignments.

248 the EEC model and interacting with multiple adjacent cells simultaneously.

249 mechanisms: direct cell-cell interaction on adjacent cells, stabilization of adjacent cell surface r

250 between the hemopexin domain of MT1-MMP and adjacent cell surface molecules is responsible for outsi

251 eraction on adjacent cells, stabilization of adjacent cell surface receptors on the same cell, and in

252 tivity is linked to Frizzled activity on the adjacent cell surface.

253 membrane-linked ephrin-A ligands residing on adjacent cell surfaces.

254 in paracrine or autocrine interactions with adjacent cell surfaces.

255 ifies differences between Frizzled levels on adjacent cell surfaces.

256 signaling can keep the rapid oscillations in adjacent cells synchronized.

257 se mixtures of tumour cells (TCs) and tumour-adjacent cells (TACs), and the intricate interconnection

258 osphorylation of EGFR on the cell surface of adjacent cells than equivalent levels of mature TGFalpha

259 idly from one cell and immediately invade an adjacent cell, thereby minimizing exposure to the extrac

260 hages within tissues transfer cholesterol to adjacent cells, thereby contributing to the ability to u

261 ddition to serving as a rigid anchor between adjacent cells, this study implicates desmosomal cadheri

262 spreading of prosensory specification to the adjacent cells through an intercellular mechanism.

263 tructure to epithelial tissues by connecting adjacent cells through homophilic E-cadherin interaction

264 ses move from the initially infected cell to adjacent cells through plasmodesmata (PDs).

265 ne protrusions that resolve into vacuoles in adjacent cells, through a poorly understood mechanism.

266 id residues from the gangliosides present on adjacent cells, thus creating cell to cell interactions.

267 ligands for HVEM when presented in trans by adjacent cells, thus forming a bidirectional signaling p

268 ith localized inhibition of outgrowth of the adjacent cell to form interdigitating lobes and indentat

269 veloped particle could potentially infect an adjacent cell to mediate the cell-to-cell spread that is

270 stem cell-inducing transcription factor into adjacent cells to activate a negative regulator, thereby

271 The ability of previously-adjacent cells to adopt radically different fates could

272 Cell surface connexons dock between adjacent cells to allow for gap junctional intercellular

273 nnels that directly connect the cytoplasm of adjacent cells to allow for the intercellular transfer o

274 but also forces the lateral membrane of the adjacent cells to bend towards the initiating cells, the

275 n, particularly pheomelanin, photosensitizes adjacent cells to caspase-3 independent apoptosis, and t

276 where it mediates the communication between adjacent cells to control cell fate specification.

277 lop into oogonia that enter meiosis, recruit adjacent cells to form follicle-like structures, and lat

278 bility in individual cells or couple between adjacent cells to form gap junctions and thereby provide

279 of hemichannels, which dock further between adjacent cells to form gap junctions.

280 on molecules that interact with neurexins on adjacent cells to promote glutamatergic and GABAergic sy

281 iggered rapid migration and proliferation of adjacent cells to restore their density.

282 binds to transmembrane receptors located on adjacent cells triggering a tyrosine kinase cascade.

283 The floorplate and adjacent cell types are absent in gli1-/-;gli2-/- mice,

284 e gradient into discrete transitions between adjacent cell types is the genetic toggle switch, compos

285 evelopment involves the formation of several adjacent cell types required for normal male fertility.

286 esigned to infer directional signals linking adjacent cell types within a complex tissue.

287 that IRK localization is informed locally by adjacent cell types.

288 ected cGAS(+)STING(-) cells can migrate into adjacent cells via gap junctions to function in trans in

289 teroid-receptor positive cells but rather in adjacent cells via paracrine signaling involving several

290 scent proteins provides a way to distinguish adjacent cells, visualize cellular interactions and perf

291 lular movement of the VRCs and the spread to adjacent cells was blocked by inhibitors of filamentous

292 as accompanied by movement of the protein to adjacent cells, where it directly activated homeotic tar

293 r, moves from the stele to a single layer of adjacent cells, where it enters the nucleus.

294 tiated by trans binding between cadherins on adjacent cells, which is followed by the clustering of c

295 ponents initiate and reinforce senescence in adjacent cells, which is likely to create a positive fee

296 rs are delivered, but not in nonhaustoriated adjacent cells, which show high PR1::GUS expression leve

297 ression of cambial and phloem markers in the adjacent cells, which suggests that a local auxin-signal

298 ach capturing the transcriptomes of multiple adjacent cells, with scRNA-Seq generated from the same s

299 paracrinely to stimulate the mitogenesis of adjacent cells within the nascent DRG.

300 ong growth-derived maximal tensile stress in adjacent cells would mechanically isolate rapidly growin