ライフサイエンスコーパス: cell communication

1 more recently evolved functions (e.g., cell-cell communication).

2 t pathways for electrical and metabolic cell-cell communication.

3 regulation of both cell-intrinsic events and cell communication.

4 organisms for energy metabolism and cell-to-cell communication.

5 s and S. cristatus is necessary for the cell-cell communication.

6 mechanisms, distant cells benefit from cell-cell communication.

7 processes like motility, invasion, and cell-cell communication.

8 development, cell differentiation, and cell-cell communication.

9 a use chemicals called autoinducers for cell-cell communication.

10 ients with vascular disease and mediate cell-cell communication.

11 ent may play a key role in facilitating cell-cell communication.

12 cks and a previously unknown form of cell-to-cell communication.

13 ifferentiation, and homeostasis through cell-cell communication.

14 onment, termed the niche, through local cell-cell communication.

15 uginosa employs alkyl quinolones for cell-to-cell communication.

16 ibrogenic cytokines and by promoting cell-to-cell communication.

17 r a better understanding of stromal:leukemia cell communication.

18 rgoes that have emerged as mediators of cell-cell communication.

19 id of Alzheimer's disease for mediating cell-cell communication.

20 these circulating miRNAs in distant cell-to-cell communication.

21 or functions of over 400 proteins central to cell communication.

22 al transduction, cellular dynamics, and cell-cell communication.

23 ght be important mediators of neuronal-glial cell communication.

24 own its crucial role as mediators of cell-to-cell communication.

25 that function as neurotransmitters for cell-cell communication.

26 l infection, antiviral response, and cell-to-cell communication.

27 mportant for neuron excitability and cell-to-cell communication.

28 ral migrations, which require extensive cell-cell communication.

29 y expanding the lexicon and language of cell-cell communication.

30 extend outside of the cell and mediate cell-cell communication.

31 ndaries of Trx and suggest a role in cell-to-cell communication.

32 ptor family regulates cell fate through cell-cell communication.

33 ies have defined its unusual mode of cell-to-cell communication.

34 wledge in a model of pulmonary alveolar cell-cell communication.

35 hly specialized cells dedicated to fast cell-cell communication.

36 (PKP2) cause arrhythmia due to loss of cell-cell communication.

37 owth and biochemical activities through cell-cell communication.

38 ons as a ligand for receptors vital for cell-cell communication.

39 ordinate physiological responses via cell-to-cell communication.

40 lar connection, as well as for studying cell-cell communication.

41 nt of the mechanisms that control plant cell-cell communication.

42 covered ligand receptors that influence cell-cell communication.

43 okines or cytokine receptors to disrupt host cell communication.

44 they seem to constitute a new system of cell-cell communication.

45 sing GC tumors (GCT) through perturbed local cell communication.

46 ceptors under an environment closest to cell-cell communication.

47 ecognized to play a critical role in cell-to-cell communication.

48 ntimicrobial effects and involvement in cell-cell communication.

49 ism-wide impacts of ex-sRNA-mediated cell-to-cell communication.

50 anding and manipulating cancers through cell-cell communication.

51 aspects of ECM function in mediating cell-to-cell communications.

52 plications such as cell sorting and studying cell communications.

53 EVs are known to play key roles in cell-cell communication, acting proximally as well as systemi

54 l surface receptors and ligands mediate cell-cell communication, adhesion, and initiation of signalin

55 earrangements, adhesion, and mechanical cell-cell communication, all controlled by GTPases of the RHO

56 Notably, preventing cell-to-cell communication also substantially reduces variabilit

57 iology, we demonstrate that loss of Purkinje cell communication altered the firing rate and pattern o

58 a uncover the existence of homotypic cell-to-cell communication among mobile innate lymphocytes, whic

59 Cell communication analysis revealed that the education

60 nally, exosomes may mediate specific cell-to-cell communication and activate signaling pathways in ce

61 he adaptability of CNTN4 to maintaining cell-cell communication and adhesion properties under differe

62 e plant growth, development, mechanics, cell-cell communication and adhesion, and defense.

63 at GILZ plays important roles in bone-immune cell communication and BMSC immune suppressive functions

64 Mass spectrometry analysis demonstrated cell-cell communication and chondrocyte phenotype-dependent e

65 ceptors on neighboring cells to mediate cell-cell communication and control cell fate, proliferation,

66 ed in synaptic processes that govern cell-to-cell communication and could both contribute in differen

67 ucial part of coordinated control of cell-to-cell communication and defense signaling.

68 phatic side chain specifically disrupts cell-cell communication and fusion in the fungus Neurospora c

69 Abnormalities in cell-cell communication and growth factor signaling pathways

70 esicles (EVs) play a pivotal role in cell-to-cell communication and have been shown to take part in s

71 understand the mechanism of long-range cell-cell communication and hence aggregation, we analyzed ce

72 eoclast activities both directly via cell-to-cell communication and indirectly via secreted factors,

73 the scope to answer fundamental questions of cell communication and initiate new biotechnologies rang

74 Cell-cell communication and interaction is critical during fe

75 e human genome, with important roles in cell-cell communication and migration.

76 es in EphA2 signaling can affect cancer cell-cell communication and motility through effects on actom

77 ll source, will be useful in studies of cell-cell communication and potentially for discovery of biom

78 In prokaryotes and eukaryotes, cell-cell communication and recognition of self are critical

79 tor molecules that can play roles in cell-to-cell communication and remodeling of the extracellular s

80 ic side chain disrupts this coordinated cell-cell communication and suppresses cell fusion.

81 nanotubes, which appear to function in cell-cell communication and the exchange of molecules.

82 be recent findings in miRNA-mediated cell-to-cell communication and the functions of circulating miRN

83 small vesicles released by cells to aid cell-cell communication and tissue homeostasis.

84 cer where they play an integral role in cell-cell communication and transfer pro-oncogenic molecules

85 unctionally, they are shown to regulate cell-cell communication and transmission of pathogens.

86 d GJs are required for the efficient cell-to-cell communication and viral spread.

87 ce, exosomes are known to specialize in cell-cell communications and provide an exclusive approach fo

88 ferentiation processes, disturbances in cell-cell communication, and an unbalanced ratio between cert

89 gnals responsible for cell survival, cell-to-cell communication, and differentiation, all fundamental

90 athways pertaining to synaptic transmission, cell communication, and G protein function as being up-r

91 cal processes, including cell adhesion, cell-cell communication, and host-pathogen interactions.

92 , induce or prevent mutations, initiate cell-cell communication, and modulate cell structure in a man

93 n that exosomes play a vital role in cell-to-cell communication, and pathogenesis of many age-related

94 volved in neuroprotection, immune responses, cell communication, and regeneration.

95 teins involved in cytoskeletal organization, cell communication, and regulation of signaling.

96 llular metabolism, transcription, transport, cell communication, and signal transduction.

97 ure of the signals and pathways used in cell-cell communication are well characterized, we lack, in m

98 While chemical forms of cell-to-cell communication are well recognized to coordinate bac

99 The recognition of social behavior and cell-cell communication as a ubiquitous property of bacteria

100 binoid CB(1) receptors in an artificial cell-cell communication assay that was developed.

101 MCs became motile and displayed dynamic cell-cell communication behaviours.

102 orum sensing (QS) molecules used for cell-to-cell communication between bacteria.

103 have also been shown to be involved in cell-cell communication between cancer cells and the surround

104 causes microglossia due to a failure of cell-cell communication between cranial mesoderm and CNC cell

105 utrient sensing network to allow for cell-to-cell communication between mitochondria in response to p

106 beta3 integrin mediate bidirectional cell-to-cell communication between neurons and astrocytes.

107 semaphorins have been implicated in the cell-cell communication between osteoclasts and osteoblasts a

108 of inflammation-induced E-EVs in the cell-to-cell communication between vascular endothelial cells an

109 e microenvironment inside live tissues, cell-cell communication, biomarker discovery, and drug develo

110 RNAs, likely play important roles in cell-to-cell communication both locally and systemically.

111 an important role in cell function and cell-cell communication, but its biocomplexity and dynamic na

112 We further implicate cell-cell communication by coculturing the fibroblasts with c

113 Here we reveal that SRC functions in cell-to-cell communication by controlling the biogenesis and the

114 extracellular vesicles (EVs) mediate cell-to-cell communication by exporting encapsulated materials,

115 ded by Pdr1 target genes act to promote cell-cell communication by exporting quorum sensing molecules

116 ane, but this may allow a novel form of cell-cell communication by providing a multivalent ligand for

117 one or more complexes that may mediate cell-cell communication by transporting small solutes.

118 oxalic acid in response to bacterial cell to cell communication, called quorum sensing.

119 Here we explored whether cell-cell communication can enhance the ability of cell ensem

120 ls and have been attributed to roles in cell-cell communication, cancer metastasis, and early disease

121 attern recognition receptors (PRRs) and cell:cell communication conducted by soluble mediators, inclu

122 , recognized as important components of cell-cell communication, contain mRNAs, miRNAs, proteins and

123 g pathway and plasmodesmata-mediated cell-to-cell communication converge under an intricate regulator

124 Cell-to-cell communication coordinates the behavior of individua

125 al encapsulated cells using immobilized cell-cell communication cues, with a focus on enhancing the s

126 terial motility and population based cell-to-cell communication demonstrates the versatility of our a

127 ly elucidate how signaling pathways and cell-cell communications direct the cellular response of HPCs

128 aired aggregation, we found the longest cell-cell communication distance in wild-type cells, suggesti

129 e also focus on the importance of NO in cell-cell communication during developmental processes and se

130 ion events illustrate the importance of cell-cell communication during growth and development.

131 characterized channels that mediate cell-to-cell communication during neurotransmission in animals,

132 eptor tyrosine kinases are critical for cell-cell communication during normal and oncogenic tissue pa

133 hroughout plant evolution to mediate cell-to-cell communication during sexual reproduction.

134 vivo and their biological effect in cell to cell communication during the adaptive immune response.

135 molecule, plays an important role in cell-to-cell communication during tissue development.

136 smic reticulum stress and hypoxia), and cell-cell communication (e.g. Notch and Ephrin signaling path

137 Cell-cell communication, either in direct proximity or at a d

138 hase concentrations, are crucial for cell-to-cell communication, emphasizing the need for spatially r

139 Cell-cell communication enables bacteria to coordinate their

140 ants, fertilization requires complex cell-to-cell communication events between the pollen tube and th

141 most of the "hardware" elements that mediate cell communication events that dictate cell fate choices

142 hat a large fraction of them involve cell-to-cell communication, extracellular matrix and transport,

143 ceptor-based signaling is a means of cell-to-cell communication for coordinating developmental and ph

144 through these connections, suggesting their cell communication function.

145 sis, we show that the expression of putative cell communication genes related to focal adhesion and s

146 In this way, localized cell-cell communication gives rise to tissue-level homeostati

147 aling molecules and show that bacterial cell-cell communication goes far beyond AHL signaling in natu

148 sit at a point in parameter space where cell-cell communication has a significant effect on the senso

149 Cell-cell communication has proven to be even more complex th

150 e use of physical signals for microbial cell-cell communication has received only limited attention.

151 a wide range of compounds necessary for cell-cell communication, host colonization and virulence.

152 ats) region, plays an important role in cell-cell communication; however, we show here that it also p

153 alian cells that is consistent with the cell-cell communication hypothesis.

154 The 4th ASM Conference on Cell-Cell Communication in Bacteria was held in Miami, FL, fr

155 r study highlights the importance of cell-to-cell communication in controlling cellular heterogeneity

156 tly reported as crucial mediators in cell-to-cell communication in development and disease.

157 of extracellular regulatory RNAs in cell-to-cell communication in different cellular contexts.

158 crucial regulator of tumor cell-endothelial cell communication in gastrointestinal tumors and gliobl

159 Cell-cell communication in Gram-positive bacteria often depen

160 not form gap junction plaques or induce cell-cell communication in HeLa cells, whereas the addition o

161 been implicated as novel mediators of immune cell communication in mammals.

162 lighting the importance of pathological cell-cell communication in neurodegenerative disease.

163 Neuropeptides are essential for cell-cell communication in neurological and endocrine physiol

164 have emerged as important players in cell-to-cell communication in normal physiology and pathological

165 ies) are emerging as a novel mean of cell-to-cell communication in physiology and pathology because t

166 Cell-to-cell communication in plants includes the selective traf

167 ls that serve as a major conduit for cell-to-cell communication in plants.

168 an important class of regulators in cell-to-cell communication in plants.

169 Fast cell-to-cell communication in the brain is achieved by action po

170 wild-type tissues, suggesting impaired cell-cell communication in the BT-IgSF-KO mice.

171 y the putative role of exosome-mediated cell-cell communication in the cancer-immunity interplay.

172 tion components, contributing to proper cell-cell communication in the heart.

173 Cell-cell communication in the islet of Langerhans is importa

174 e conclude there is a redundancy in how cell-cell communication in the islet suppresses insulin relea

175 nt cells and provide a unique route for cell-cell communication in the plant lineage.

176 sent an important aspect of adipocyte-immune cell communication in the regulation of whole body energ

177 om solid tumour cells, participating in cell-cell communication in the tumour microenvironment.

178 ceptor, the data suggest a disturbed cell-to-cell communication in this disease.

179 function and will aid future studies on cell-cell communication in this important opportunistic patho

180 ca, and D-Asp appears to be involved in cell-cell communication in this system.

181 suggest indirect mechanical channels of cell-cell communications in 3D fibrous matrices.The structure

182 Other means of cell-to-cell communication include extracellular microRNA transp

183 ltiple molecular pathways, including cell-to-cell communication, innate/adaptive immunity, and cell p

184 They act as key components of cell-to-cell communication, interfere with signaling and respons

185 ional operation, but when combined with cell-cell communication, intricate patterns emerge.

186 Cell migration and cell-cell communication involve the protrusion of actin-rich

187 Glomerular cell-cell communication is critical for the development and m

188 nmental conditions under which QS-based cell-cell communication is effective and that findings from s

189 Cell-to-cell communication is essen for the development of multi

190 Cell-cell communication is essential for multicellular develo

191 ility to explore cell signalling and cell-to-cell communication is essential for understanding cell b

192 ons of each cell type in the context of cell-cell communication is important for effectively designin

193 Cell-cell communication is mediated by exosomes.

194 Bacterial cell-cell communication is mediated by small signaling molecu

195 aling pathways integrate PD-mediated cell-to-cell communication is not well understood.

196 Cell-to-cell communication is primarily mediated by signalling m

197 ls, a tightly controlled short distance cell-cell communication is required.

198 Thus, Cx37, a protein involved in cell-cell communication, is one of only a few proteins identi

199 (QQ) is the disruption of bacterial cell-to-cell communication (known as quorum sensing), which has

200 esulted in compromised CD8+ T cell/dendritic cell communication, leading to impaired migratory and ph

201 cation between e11.5 and e13.5 and that cell-cell communication likely plays an important role in reg

202 This stabilization of cell-cell communication may be an important early adaptation

203 rce the concept that blocking cancer-stromal cell communication may represent an effective strategy f

204 ystem has emerged as a widely conserved cell-cell communication mechanism in Gram-negative bacteria.

205 Notch-Delta signaling is a fundamental cell-cell communication mechanism that governs the differenti

206 entially allow the identification of cell-to-cell communication mechanisms and biomarkers.

207 ng body development, cell behaviors and cell-cell communication mechanisms that mediate aggregation a

208 Bacteria have developed cell-to-cell communication mechanisms, termed quorum sensing (QS

209 Cell-cell communication mediated by secreted peptides, recept

210 om other bacteria in combination with a cell-cell communication module.

211 rization of cis-2-decenoic acid as a cell-to-cell communication molecule that regulates biofilm dispe

212 natures, distinctive upregulation of early T cell-communication molecules, and differential expansion

213 We identified a paracrine cell communication network between infected and noninfec

214 vidual cells, we constructed a map of a cell-cell communication network that indicates what signal is

215 ential for a unique vesicle-mediated cell-to-cell communication network within the ovarian follicle.

216 lk, add PD as a critical player in the plant cell communication network, and thereby illuminate a pre

217 ble approach to the challenge of deciphering cell communication networks in a wide spectrum of biolog

218 ecules, which allow them to function in cell-cell communication, neuronal migration, neurite outgrowt

219 sequential logic supporting autonomous cell-cell communication of DNA encoding distinct logic-gate s

220 Bacterial cell-cell communication or "quorum sensing" (QS) is mediated

221 chanism of regulation may contribute to cell-cell communication or proton signaling by Na(+)/H(+) exc

222 is discussed in the context of various cell-cell communication paradigms.

223 of the host has shown a circumvention of the cell communication pathway by M. avium subsp. paratuberc

224 Notch signaling is a highly conserved cell-cell communication pathway regulating normal development

225 The Flower protein family is part of a cell-cell communication pathway that regulates cell competiti

226 These data illustrate a bidirectional cell-cell communication pathway with implication for tissue r

227 in/Eph signaling, a well-known local cell-to-cell communication pathway, in cell division.

228 ne the roles of gap-junctions and other cell-cell communication pathways in the suppression of insuli

229 n many cases, it is thought that direct cell-cell communication plays a critical role in the transiti

230 These transitions are controlled by a cell-cell communication process called quorum sensing, in whi

231 Quorum sensing is a cell-cell communication process that bacteria use to transiti

232 on is controlled by quorum sensing, the cell-cell communication process that enables bacteria to orch

233 um Pseudomonas aeruginosa PA14 uses the cell-cell communication process, called quorum sensing, to ac

234 Quorum sensing, a bacterial cell-cell communication process, controls biofilm formation a

235 iew highlights how different methods of stem cell communication reflect the unique organization and f

236 There is a growing interest in the cell-cell communication roles in cancer mediated by secreted

237 nanotubes (TNTs), a recently discovered cell-cell communication route.

238 ion, with preference to proteins involved in cell communication, signal transduction, protein metabol

239 r cell (PBMC) signaling dynamics and cell-to-cell communication, signaling variability between PBMCs

240 gels presented here can provide crucial cell-cell communication signals for dispersed beta-cells and

241 phenotype of cancer which captures the cell-cell communication structure - it may open new opportuni

242 Our study uncovers a function of SRC in cell-cell communication, supported by syntenin exosomes, whic

243 ted Xanthomonas species, employs an Rpf cell-cell communication system consisting of a diffusible sig

244 the Hedgehog (Hh) pathway, a prominent cell-cell communication system in development.

245 Here, we describe a novel cell-cell communication system in the insect and human pathog

246 A newly discovered cell-to-cell communication system involves small, membrane-envel

247 pathogen Pseudomonas aeruginosa uses a cell-cell communication system termed "quorum sensing" to con

248 Quorum sensing (QS) is a cell-cell communication system that controls gene expression

249 iscovery 22 years ago, the bacterial cell-to-cell communication system, termed quorum sensing (QS), h

250 Bacteria have developed a cell-to-cell communication system, termed quorum sensing (QS), w

251 We describe the cell-cell communication systems that control the developmenta

252 an respiratory track, where it utilizes cell-cell communication systems to coordinate population-leve

253 nerated new parts for genetic circuits, cell-cell communication systems, and non-natural metabolic pa

254 of host immune responses and bacterial cell-cell communication systems.

255 hat are emerging as potent mediators of cell-cell communication that are of particular importance in

256 Quorum sensing is a mechanism of cell-cell communication that bacteria use to control collecti

257 Quorum sensing is a process of cell-cell communication that bacteria use to regulate collect

258 quorum sensing, a type of bacterial cell-to-cell communication that depends upon exchanges of molecu

259 Quorum sensing (QS) is a process of cell-to-cell communication that enables bacteria to transition b

260 uorum sensing is a process of bacterial cell-cell communication that enables populations of cells to

261 sensing (QS) is a process of bacterial cell-cell communication that relies on the production, detect

262 uorum sensing is a process of bacterial cell-cell communication that relies on the production, releas

263 ere we report experimental evidence for cell-cell communication that significantly enhances the chemo

264 ant changes of electrical and metabolic cell-cell communication through gap junction (GJ) channels.

265 Prevailing dogma holds that cell-cell communication through Notch ligands and receptors d

266 Proper cell-cell communication through physical contact is crucial f

267 utilizes exosomes as a mechanism of cell-to-cell communication through the transfer of signaling com

268 iety of critical functions ranging from cell-cell communication to cell motility.

269 yed by Gram-negative bacteria for their cell-cell communication to control expression of specialized

270 creted peptide signals are important in cell-cell communication to coordinate and integrate cellular

271 Multicellular organisms depend on cell-to-cell communication to coordinate both development and en

272 divergent, both organisms use iterative cell-cell communication to establish left-right neuronal iden

273 from both environmental signals and cell-to-cell communication to influence PqsR levels.

274 obiota and chemical signaling during cell-to-cell communication to regulate several cellular function

275 otic stress through well-coordinated cell-to-cell communication to survive as sedentary organisms.

276 ng multiple myeloma (MM) cell-to-endothelial cell communication under chronic hypoxia.

277 rate that neural precursor cell (NPC):glioma cell communication underpins this propensity of glioma t

278 l method for specifically addressing cell-to-cell communication, using primary brain cells, a microfl

279 ver, biochar inhibition of AHL-mediated cell-cell communication varied, with the biochar prepared at

280 Microparticles (MPs) are cell-cell communication vesicles derived from the cell surfac

281 racellular vesicles (EVs), mediators of cell-cell communication via delivery of proteins and microRNA

282 at this alignment depends on epithelial cell-cell communication via semaphorin-plexin signaling.

283 Cell-to-cell communication via the Notch pathway is mediated bet

284 MVs), are presumed to play key roles in cell-cell communication via transfer of biomolecules between

285 ts demonstrate that intraganglionic, cell-to-cell communication, via transfer of large molecules, occ

286 In support of this notion, direct cell-to-cell communication was recently found to play a crucial

287 A new mechanism of cell-cell communication was recently proposed after the disco

288 ure >600 plasma proteins involved in cell-to-cell communication, was used to measure plasma protein p

289 nd propose the involvement of miRNAs in cell-cell communication, we will also highlight findings abou

290 The effects on cell-cell communication were quantified using impedance analy

291 ision; while migration, adhesion and cell-to-cell communication, were downregulated.

292 also support a model of ROS-mediated cell-to-cell communication, where a self-propagating mutual acti

293 , coordinates endometrial epithelial-stromal cell communication, which is critical for its developmen

294 okines represent essential mediators of cell-cell communication with particularly important roles wit

295 riction; virus-induced fluid secretion; cell-cell communication within the epithelium; and the epithe

296 a novel physiological mechanism for cell-to-cell communication within the kidney.

297 The disruption of cell-cell communication within the leukemic niche may offer a

298 ds, proteins, and nucleic acids conduct cell-cell communications within the microenvironment of both

299 s (tEVs) are important signals in tumor-host cell communication, yet it remains unclear how endogenou

300 trophil chemotaxis in the context of cell-to-cell communications, yielding both fundamental and thera