ライフサイエンスコーパス: communication

1 Related Quality of Life, Pain, Survival, and Communication).

2 esign features with advanced forms of animal communication.

3 eus but that requires organized mito-nuclear communication.

4 rates in those lineages with known acoustic communication.

5 , information propagation, and intercellular communication.

6 as a model with which to study polarized sEV communication.

7 vealing TSK cells as a hub for intercellular communication.

8 r biological activity in male intra-specific communication.

9 ried by lip movements is an integral part of communication.

10 matrix as an alternative route for cell-cell communication.

11 function, including growth, metabolism, and communication.

12 rol, power delivery, data processing, and/or communication.

13 trafficking of chemical signals and neuronal communication.

14 attracting client fish and for intraspecific communication.

15 a novel and effective method of cell-to-cell communication.

16 l-to-tissue communications and cross-species communication.

17 polarity transition and altering early-life communication.

18 ed rhythmic dynamics that support interareal communication.

19 e and observe long-timescale organization in communication.

20 ay for metabolic and electrical cell-to-cell communication.

21 nics in the era of fifth-generation wireless communication.

22 he community standard for biological pathway communication.

23 nificant for long-haul and anti-interference communication.

24 ely human behavior critical to this process: communication.

25 ulin 1 (Nrg1), protein involved in cell-cell communication.

26 nary divergence of neural circuits for vocal communication.

27 esized that I(h) would be important for LNvs communication.

28 years or older are reported in this Special Communication.

29 ndividual cells rather than via cell-to-cell communication.

30 s a central role in conspecific chemosensory communication.

31 ived vesicles that function in intercellular communication.

32 nt as silicon ICs for computation and signal communication.

33 ns a central question in the study of animal communication.

34 he source, and mostly for verbal uncertainty communication.

35 ignal processing, supercollimated beams, and communications.

36 ncluding imaging, sensing, photovoltaics and communications.

37 frequencies of 10-30 kilohertz for submarine communications.

38 ardized gene naming is crucial for effective communication about genes, and as genomics becomes incre

39 te of communication, patient preferences for communication about palliative care topics, best practic

40 ts and minority-relevant programming, active communications about diversity-related events and resour

41 fferent from optical and/or electrical cable communications, acoustic waves can be simply and effecti

42 and the development of technology to improve communication across different parts of a service.

43 rapid axonal conduction, enabling efficient communication across different parts of the nervous syst

44 the wide-reaching importance of polyploidy, communication across disciplinary boundaries to identify

45 nsion in providing the long-range mechanical communication across the cell required for symmetry brea

46 trophic relationships and shifts in cellular communication after angiotensin II treatment that promot

47 ervous systems through dynamic bidirectional communication along the 'gut-brain axis'.

48 um transients and neurotransmitter-dependent communication among CRC cells.

49 Cell-cell communication among macrophages that are recruited into

50 ll RNA cargo and have roles in intercellular communication among parasites and influence growth kinet

51 pulses (electric organ discharge [EOD]) for communication and active sensing.

52 ized as important vehicles for intercellular communication and as promising sources for biomarker dis

53 underlying natural eye contact during verbal communication and autistic traits in neurotypical people

54 be utilized to study S. pneumoniae cell-cell communication and behavioral changes, as well as attenua

55 he evidence supporting a role for interorgan communication and circulating progeronic and antigeronic

56 itate inter-, multi-, and trans-disciplinary communication and collaboration.

57 ospitals actively promoted interdisciplinary communication and coordination using a range of organiza

58 nterfaces are envisioned as the next step in communication and data transfer.

59 studying organogenesis, cell-to-cell stromal communication and disease.

60 al issues; (4) community engagement; and (5) communication and dissemination.

61 A formal implementation strategy emphasizing communication and feedback, standardized processes, coor

62 ortant at the high frequencies necessary for communication and fine-scale sensing.

63 s electronics are developed using near-field communication and frequency modulation technology for ap

64 A healthy voice is crucial for verbal communication and hence in daily as well as professional

65 operation in quantum computing, simulation, communication and information.

66 indings raise the question of whether social communication and irritability have the same meaning at

67 aining various biomolecules involved in cell communication and multiple physiological processes.

68 cell surface and are important for cell-cell communication and pathogen internalization.

69 e possible mechanisms of epithelial-neuronal communication and provide an overview of the possible ne

70 romising unconditional security to classical communication and providing the building block of a futu

71 However, neurons can maintain synaptic communication and signalling under resting conditions in

72 hip, webinar content and facilitation, staff communication and support, and program organization.

73 xtracellular RNAs in mediating intercellular communication and their potential role as biomarkers.

74 n potentials are a key component of neuronal communication and their precise timing is critical for p

75 ing mechanisms for rapid receptor-to-nucleus communication and transcription control.

76 ry intervention that reflects inter-facility communication and urgent mobilization of interventional

77 f light, such as digital holography, optical communications and biomedical imaging.

78 roles in cell-to-cell and/or cell-to-tissue communications and cross-species communication.

79 Catalytic Asp-239 controls hMGL allosteric communications and may be considered as an essential res

80 racellular RNAs participate in intercellular communication, and are being studied as promising minima

81 areer were informal mentors, open scientific communication, and persistence in pursuing difficult sci

82 are active and integral players in synaptic communication, and that neuron-astrocyte interactions ar

83 T Motion perception is vital for navigation, communication, and the awareness of moving objects.

84 t palliative care topics, best practices for communication, and the roles of education and system int

85 tight junction, gap junctional intercellular communication, and transmembrane transporters, all of wh

86 electronic domain, where radar, navigation, communications, and fundamental research rely on less st

87 major routes considered for this neuroimmune communication are by individual molecules such as cytoki

88 ications for catalysis as well as electronic communication are discussed.

89 rein, the roles of CO in host-gut microbiome communication are examined through a discussion of (1) h

90 h care and pharmaceuticals, transparency and communication are lacking, and some utilization manageme

91 We show that origins of acoustic communication are significantly associated with nocturna

92 due to their essential role in cell-to-cell communication as well as their potential as non-invasive

93 phones enable relatively cheap and effective communication, as well as access to information and vita

94 tive oncology care including family-centered communication, assessment and management of physical sym

95 y operation that effectively enables quantum communication at a rate that surpasses the ideal loss-eq

96 When we examined vHPC-mPFC communication at higher resolution, vHPC input onto pref

97 ace makes a substantial step towards quantum communication at large scale, as well as novel explorati

98 have established the importance of cell-cell communication at the NMJ for the integrity and full func

99 To meet the increasing demand for data communication bandwidth and overcome the limits of elect

100 reliminary evidence of benefit in minimising communication barriers.

101 e analyses and evaluating putative cell-cell communication based on spatial proximity.

102 This involves extensive communication between bone-forming osteoblasts and bone-

103 may function as a form of positive emotional communication between cats and humans.

104 y to investigate inflammatory mediators, the communication between cells of the innate and the adapti

105 Efficient communication between heart cells is vital to ensure the

106 We thus uncover the significance of the communication between male and female that initiates the

107 lected mucosal antibodies may strengthen the communication between mucosal and systemic immune compar

108 The communication between neurons and non-neuronal cells suc

109 perience, extending the range over which the communication between neurons occurs, and for both the p

110 Communication between organelles is essential for their

111 ly available and easily accessible; enabling communication between patients and multiple providers; a

112 lated DM-binding affinity, suggesting distal communication between peptide interactions with the MHCI

113 es of the treatment protocol by face-to-face communication between physician and patient were possibl

114 action dynamics and can facilitate real-time communication between protein interactions at distinct s

115 The fitted neutral models without cellular communication between single cells isolated by microflui

116 ge of these characteristics may be useful in communication between surgeons and patients regarding po

117 We propose that communication between the actin- and nucleotide-binding

118 e simulations indicate that Motif V controls communication between the ATP-binding pocket and the hel

119 llular vesicles (EVs) that likely facilitate communication between the embryo/fetus and the mother.

120 pins a crucial role of Glu340 in interdomain communication between the headpiece and the Ca(2+)-bindi

121 ighlight the importance of tightly regulated communication between the IFN-alpha/beta and IFN-gamma s

122 lymphangiography, we observed no functional communication between the lobar lymphatics.

123 e phosphorylation that occurs at the site of communication between the nucleotide-binding and substra

124 monoubiquitination, we reveal an allosteric communication between the ubiquitination site K644, the

125 Theta-frequency communication between the ventral hippocampus (vHPC) and

126 Here, we provide an update on metabolic communication between tumor cells and heterogeneous stro

127 xpanding research into the dynamic molecular communications between gut microorganisms and the CNS co

128 presumably acts as a mediator for cell-cell communication (bicellular AND gate).

129 the molecular basis for this intramolecular communication by analyzing the structure and functional

130 Cell-to-cell communication by exosomes controls normal and pathogenic

131 rease in O-GlcNAcylation can affect neuronal communication by inducing long-term depression (LTD) of

132 Exquisitely regulated plastid-to-nucleus communication by retrograde signaling pathways is essent

133 xperience, human characterizations of animal communication can be affected by human perceptual biases

134 lectronic circuits and, ultimately, wireless communication capabilities, have provided the tools requ

135 As Nature Communications celebrates a 10-year anniversary, the fie

136 etween these myosin isoforms, located in the communication center of the functional regions, which al

137 of a single symbol, who has no access to the communication channel and its source or target.

138 ack of an effective interactive platform and communication channel between researchers specializing i

139 se errors in realistic optical and microwave communication channels and study their various quantum c

140 Noise in realistic quantum communication channels imposes fundamental limits on the

141 We anticipate that redox communication channels will enable biohybrid microelectr

142 ination of nutritional signals and cell-cell communication controlling rhythmic metabolism.

143 tubes, some of which have been implicated in communication defects associated with cardiac injury, na

144 velopmental disorder characterized by social communication deficits and other behavioral abnormalitie

145 behaviors, impaired social interactions, and communication deficits.

146 address this issue by predicting sensing and communication degradation in terms of acoustic attenuati

147 This Communication demonstrates that water, not dioxygen, is

148 This Communication describes the use of CuInS(2) /ZnS quantum

149 step forward in realizing flexible wireless communication devices.

150 common problem for older adults, leading to communication difficulties, isolation, and cognitive dec

151 We find that acoustic communication does not increase diversification rates, a

152 Communication dynamics underlying both collective choice

153 In certain contexts, redundancy facilitates communication (e.g., when the colour or size of an objec

154 findings for how we think about the current communication environment, exposure to news, and ongoing

155 to manipulate PD-mediated host intercellular communication for maximizing the spread of bacterial inf

156 This underlies the importance of glia-matrix communication for structural and functional support of t

157 cuss emerging strategies to target metabolic communications for improved cancer treatments.

158 rived substances to serve as a rapid mode of communication from brain to the liver.

159 tor pairs can be used to infer intercellular communication from the coordinated expression of their c

160 at exploring these differences to bridge the communications gap.

161 GJ intercellular communication (GJIC) can be mediated by multiple types o

162 show that Cx43-gap junctional intercellular communication (GJIC) influences Cx43-dependent skeletal

163 rticle, we address the challenges-related to communication, good laboratory practice, and data handli

164 In this system, an intriguing allosteric communication has been suggested to control its DNA clea

165 Studies of animal communication have documented myriad rapid, context-depe

166 ften precede the hallmark symptoms of social communication impairments.

167 ing to be associated with positive emotional communication in a range of species.

168 tion risk will shape the evolution of sexual communication in both senders and receivers.

169 derstanding and manipulating inter-organelle communication in cells.

170 ntiation and connexin 43 (CX43) gap junction communication in cultured pluripotent cells from human d

171 sed CX43 protein expression and gap junction communication in hDFC.

172 provide new insight into microglia-astrocyte communication in homeostasis and disease.

173 Social media has become a major source of communication in medicine.

174 neuronal activity and is thought to regulate communication in neuronal circuits.

175 resent an understudied form of intercellular communication in polarized cells.

176 rtant for intra- and inter-specific chemical communication in squamates.

177 d production is the primary form of acoustic communication in terrestrial vertebrates, particularly b

178 Given the importance of communication in the animal kingdom, these adjustments c

179 idely used techniques of quantifying network communication in the brain with classical neuroscience m

180 On the other hand, evidence of communication in the context of coordination problems is

181 Acoustic communication in the form of courtship and mating songs

182 present an important method of intercellular communication in the human host.

183 coustics is the primary means of sensing and communication in the ocean for humans and many marine an

184 itical means of bidirectional inter-cellular communication in the TME.

185 the tumor microenvironment and intercellular communications in CCA and their role in tumor progressio

186 k-space data as well as Digital Imaging and Communications in Medicine image data of knee images for

187 eptors are important players in cell-to-cell communications in plants.

188 rum sensing plays crucial roles in bacterial communication including in the process of conjugation, w

189 review the different means of intercellular communication including soluble factors in the context o

190 eeded into interventions facilitating family communication, increasing awareness among families and h

191 hemichannel function, but not intercellular communication, induces leader cell activity and collecti

192 and demonstrate possible ways of how network communication influences human behavior.

193 Augmentative and alternative communication interventions show preliminary evidence of

194 itorial dominance, indicating that olfactory communication involving apical VNO receptors like V1R is

195 nd changes in key processes of intercellular communication, involving gap junctions, extracellular ve

196 Quantum communication is an important branch of quantum informat

197 mary sensory modality, research on olfactory communication is hampered by a lack of tractable methods

198 e MCl(2) fragment is small and suggests that communication is mediated by better energy matching betw

199 The focus of this communication is on a potential biomarker, short telomer

200 so demonstrate that the presence of acoustic communication is strongly conserved over time.

201 upport a model in which cell-cell mechanical communication is sufficient for the rearrangements that

202 A component of such cellular communication is the production and exchange of various

203 upon cell division, and the modeling of cell communication (juxtacrine and paracrine signaling).

204 y introduced to provide secure low data rate communications links across short distances.

205 uture ubiquitous secure 'THz Torch' wireless communications links; as well as other applications.

206 een identified-such as altered intercellular communication, loss of proteostasis and eroded mitochond

207 xtracellular vesicles (EVs) as intercellular communication mediators has been increasingly revealed i

208 se importance for broad applications in data communication, microwave photonics, and quantum photonic

209 ave the way to graphene-based optical mid-IR communication, mid-IR color displays, mid-IR spectroscop

210 We identified cellular communication network factor 1 (CYR61) as a chemokine th

211 ic signal interference shapes bacteria-plant communication networks and is essential for maintaining

212 Communication networks have multiple users, each sending

213 Mapping intercellular communication networks within the heart, we identified k

214 -a critical component for future all-optical communications networks-remains elusive.

215 -driven translocation through SecYEG and (2) communication of conformational changes via SecDF across

216 development of BCI-based solutions for fast communication of emotions.

217 In temperate environments, preventing communication of foraging locations rarely decreases col

218 data-driven analysis suggest that intrinsic communication of frontal regions engaged in executive fu

219 Because clear communication of prognosis is an ethical mandate, more r

220 ive sensor tags and demonstrate over the air communication of sensor data.

221 tment targets whereas dysregulated intrinsic communication of the striato-amygdala system engaged in

222 ch as nonclassical light sources for quantum communication or quantum cryptography, we have successfu

223 that may be relevant for brain-immune system communication, our goal being to introduce a conceptual

224 Here we review proposals of how communication, particularly between visual cortical area

225 that the p.Arg293His CRY1 variant altered a communication pathway between Arg-293 and the serine loo

226 s, including the investigation of allosteric communication pathways, protein-DNA/RNA interactions and

227 covers deficiencies in the current state of communication, patient preferences for communication abo

228 diction revealed that the abnormal cell-cell communication patterns observed during aging, including

229 Communication plays an integral role in human social dyn

230 elective procedures, patient preparation and communication, prioritization of procedures, and develop

231 is a genetic disorder that includes language communication problems.

232 heir ability to interfere with the bacterial communication process referred to as quorum sensing.

233 Quorum sensing is a bacterial communication process whereby bacteria produce, release,

234 tuating, and silicon ICs for computation and communication purposes.

235 n channels imposes fundamental limits on the communication rates of various quantum communication tas

236 capacity region of simultaneously achievable communication rates.

237 rotein interactions (PPIs) mediate cell-cell communication, recognition, and responses.

238 Intercellular communication refers to the different ways through which

239 We conclude that more efficient communication regarding the threat from biological invas

240 iments highlight the importance of different communication relayed among corticocortical and thalamoc

241 Vocal communication relies on the ability of listeners to iden

242 rlying spontaneous eye contact during verbal communication remains unexplored.

243 to expand upon the recently published short communication report, we herein present a thorough evalu

244 This Communication reports the first general method for rapid

245 d coupled with machine learning and wireless communication, represent the future trend in the diagnos

246 Here we uncovered a previously unrecognized communication route allowing exclusive direct access of

247 The newly-discovered NSC-BV communication route explains how circulatory neurogenic

248 et of features that might be desirable for a communication scheme.

249 in well fed mice, inhibition of VLM(CA)-pPVT communication significantly impaired glucoprivation-indu

250 ngage with the public, improve their science communication skills, and enhance public understanding o

251 at included less severe adaptive deficits in communication skills, similar functional language, more

252 icating deficits in social cognition, social communication, social motivation, and restricted interes

253 resource is in subtle decline and intragroup communication sparse.

254 ommunity must meet robust methodological and communication standards.

255 ing nanotubes (TNTs) are novel intercellular communication structures transporting different cargos w

256 rent bathing techniques, and interaction and communication styles were associated with reduced refusa

257 crobiome axis of their host, a bidirectional communication system between the central nervous system

258 lular vesicles involved in the intercellular communication system that can exert an immunosuppressive

259 fish offer a distinct opportunity to study a communication system transitioning to a new signaling ch

260 as a substrate for a potential new cellular communication system, i.e., ephaptic transmission.

261 to extend the reach of long-haul fibre-optic communication systems and within data centres for high-s

262 wavelength (30 m at 1 MHz) has made portable communication systems in the very low frequency (VLF: 3-

263 Orthogonal cell-cell communication systems provide insight into morphogen evo

264 cant opportunities for low power, long range communication systems to meet growing demand for Interne

265 , neuromorphic computing and radio-frequency communication systems(2,3,11).

266 ered detrimental for electronic circuits and communication systems, plays a constructive role in the

267 n the communication rates of various quantum communication tasks.

268 uantum computation, sensing, simulation, and communication technologies, e.g., as robust sources of i

269 stemic homeostasis, triggering cross-disease communication that accelerates breast cancer.

270 Quorum sensing is a process of chemical communication that bacteria use to track cell density an

271 insights of inter-membrane organisation and communication, the importance of which is becoming incre

272 facial protein action, ranging from cellular communication to immune responses and the protein-driven

273 the brain mechanistically coordinates neural communication to implement such hierarchical learning re

274 Astrocytes use multiple modes of communication to interact with neighboring cells.

275 thmic and require action potential-dependent communication to maintain synchrony.

276 n and the immune system and can rewire their communication to modify chronic neurodegenerative diseas

277 For AHL-based communication to occur, bacteria must produce and recogn

278 RMST may offer a complementary risk communication tool for AF in clinical practice.

279 handoff protocol requiring bedside clinician communication using an information template.

280 of this, we have demonstrated visible light communication using OLEDs with data rates exceeding 1 gi

281 diffusible NO gas in signaling and cell-cell communication via the modulation of DGK4 activity during

282 ocytes release distinct sEV pools to mediate communication via their apical and basolateral domains a

283 The data communication was implemented using the rsocket package.

284 dation, but they also modulate intercellular communication when secreted as exosomes.

285 ble of various components linked by chemical communication, which is triggered by stoichiometric chem

286 evels, a metabolite responsible for gut-bone communication, while reestablishment of physiologic leve

287 direct skeletal attachment and bidirectional communication with implanted neuromuscular electrodes.

288 ter, have been proposed to mediate cell-cell communication with important implications in tumor micro

289 ents a multiplicity of local environments in communication with one another via saliva.

290 open, but we need to recognize the need for communication with other research areas and commercial o

291 In-person communication with patients hospitalized with COVID-19 a

292 Every animal is in constant communication with populations of microbes.

293 learned of the abnormal FIT result by direct communication with providers (19, 37.3%) or EHR messagin

294 coordination of multidisciplinary care, and communication with surrogate decision-makers.

295 type 3: perforation (3a: perforation without communication with the atria; 3b: atrioesophageal fistul

296 for timely diagnostic reporting and ongoing communication with the clinical microbiologist.

297 erventions on the basis of mobility data and communication with the public.

298 lenging and necessitating clear and frequent communication with the surgical team in order to help id

299 lar, solvent tunable ground state electronic communication with these guests.

300 omatin network, MYC itself likely drives its communications with flanking enhancers, rather than vice