ライフサイエンスコーパス: sensing

1 gger coordinated gene expression via 'quorum sensing'.

2 de nanoribbon (GONR) for methylene blue (MB) sensing.

3 y points at a covert form of auditory active sensing.

4 as an electrocatalyst in electrochemical DNA sensing.

5 raging the development of noninvasive saliva sensing.

6 transporters play different roles in glucose sensing.

7 lications in energy storage, filtration, and sensing.

8 assembly, fluidics, and chemical/biochemical sensing.

9 se of filament-solid interactions for remote sensing.

10 tions that are associated with cytosolic DNA sensing.

11 on and saturation contribute to naturalistic sensing.

12 , holds the promise of extreme subwavelength sensing.

13 do not interfere with the cysteine-targeted sensing.

14 ities in quantum metrology, e.g. in rotation sensing.

15 ntial for achieving reliable breath analysis sensing.

16 urface plasmon resonance (SPR) for plasmonic sensing.

17 ough chemiluminescence for hydrogen peroxide sensing.

18 st IRE1 use a common mechanism for ER stress sensing.

19 overall 45min to be completed before analyte sensing.

20 transport farnesol for virulence and quorum sensing.

21 NRs as H2S gas sensor is investigated by its sensing ability of 5 ppm of gas with an exposure time of

22 The electrochemical sensing activities of the graphene-electrode was explore

23 dium channel subtype NaV 1.7 is required for sensing acute and inflammatory somatic pain in mice and

24 creased synaptic activity between the ascr#3-sensing ADL neurons and their post-synaptic SMB motor ne

25 tem would prevent HAAF and normalize glucose sensing after RH in diabetes.

26 tes the integrated stress response (ISR) via sensing amino acid depletion by the eukaryotic initiatio

27 get of rapamycin (both molecules involved in sensing amino acid levels) was assessed in response to d

28 ligand sensing, suggesting a form of quorum sensing among neutrophils.

29 enhanced performance in photocatalysis, gas sensing and as Li-ion battery electrodes.

30 , we discuss approaches in modulating quorum sensing and biofilm formation as a nonlethal method, as

31 cusses current trends in the electrochemical sensing and biosensing of DNA methylation.

32 ny applications in a wide range of fields of sensing and communications because it is compatible with

33 e a greater need for mechanisms of metabolic sensing and compensation.

34 ls a significant upregulation in both damage-sensing and effector components of the inflammasome, inc

35 physiology, including regulators of glucose sensing and hormone secretion, are differentially expres

36 e barrier, contributing to delays in glucose sensing and insulin secretion kinetics.

37 It opens up multiphysics sensing and integrated NDE with potential impact for nat

38 Emerging integrated sensing and monitoring of material degradation and crack

39 l role in GATOR- and SESN-dependent nutrient sensing and mTORC1 regulation.

40 The combination of nanopore sensing and nucleic acid aptamer recognition comes close

41 anopore technologies such as single-molecule sensing and nucleic-acid sequencing.

42 ng up opportunities for optoelectronics, bio-sensing and other mid-infrared applications.

43 A short S4-S5 linker connects nearby voltage-sensing and pore domains to produce a non-domain-swapped

44 ogramming, which permits simultaneous stress sensing and proteostasis.

45 between biological and solid-state nanopore sensing and provides strategies for subnanomolar miRNA q

46 ation of the function of its Fe-S cluster in sensing and regulating cellular iron homeostasis.

47 ndicating a critical role for brain GLUT4 in sensing and responding to changes in blood glucose.

48 fic principle is that the body is constantly sensing and responding to changes in skeletal muscle met

49 The role of adipose tissue in sensing and responding to emotional stress and in behavi

50 stimulus-responsive viral vectors capable of sensing and responding to specific environmental inputs

51 Consistent with the Remote Sensing and Signaling Hypothesis, the data support the i

52 vels and may act in upstream drought-related sensing and signaling mechanisms.

53 he grating structure, which can be useful in sensing and spectroscopy applications.

54 erse biological processes including nutrient sensing and the DNA damage response, and implicated Vts1

55 the extracellular matrix and enabling force sensing and transmission.

56 arize the structure and function of the heme-sensing and transport systems of pathogenic bacteria and

57 integrality (PSI) values derived from remote sensing and validated by field measurements.

58 fications in RNA stability and innate immune sensing, and functions of adenosine to inosine modificat

59 spectroscopy, optical tomography, wavefront sensing, and imaging.

60 ng explored for quantum information science, sensing, and imaging.

61 the quantitative study of biotoxins, quorum sensing, and pathogenesis.

62 tical microcavities are prime candidates for sensing applications because of their ability to enhance

63 standoff distances is impor-tant for remote sensing applications in diverse ares, such as nuclear no

64 rs is one of the pioneer studies in the mass sensing applications.

65 t for simple and disposable paper-based (bio)sensing applications.

66 ropriate signal suitable for electrochemical sensing applications.

67 We constructed a compressive-sensing approach to pseudo-randomly acquire highly subsa

68 characteristics are offering many ingenious sensing approaches with interest for simple and disposab

69 ype I cells and how theories of acute oxygen sensing are increasingly dependent on functional interac

70 rthermore, deficiencies in beta cell glucose sensing are likely to contribute to defective insulin se

71 owever, the observed changes based on remote sensing are the result of multiple environmental drivers

72 a nuclear receptor and direct environmental sensing as a novel function of nuclear receptors.

73 In line with this statement, bio-sensing, as a sensitive analytical method, opens novel a

74 technology such as nanobio-medicine, nanobio-sensing, as well as nanoelectronics with biomolecules.

75 specific applications ranging from in vitro sensing assays to cellular imaging are separated and dis

76 Magnetic sensing at microwave frequencies for real-time monitorin

77 First, we identified a light-sensing B12-binding transcriptional regulator and demons

78 Quorum sensing-based biotechnologies are developed with the aim

79 ten associated with collaboration and quorum sensing between the bacteria.

80 s in the biomedical field including chemical sensing, biological imaging, drug delivery, and photothe

81 asurement capabilities, including positional sensing, biomacromolecular conformation analysis, and re

82 otent in uptaking tumor DNA, increase of DNA sensing by blocking the interaction of SIRPalpha with CD

83 icient delivery and temporal control of mRNA sensing by magnetic field.

84 Folate sensing by mTOR in PHT cells involves both mTOR Complex

85 l for acute but not chronic pulmonary oxygen sensing by triggering mitochondrial hyperpolarization an

86 pression normalized both the CRR and glucose sensing by VMH GI neurons in STZ rats.

87 de alpha (Calca/Cgrpalpha), specific to pain-sensing C-fibers, and tyrosine hydroxylase (Th), specifi

88 uantum technologies and has already improved sensing capabilities in areas ranging from gravitational

89 FO-SPR has enabled sensitive sensing capabilities in biomedical settings and the addi

90 s synchronized stimulation and neurochemical sensing capabilities.

91 The enantioselective sensing capability of the resulting structure was operat

92 lications, such as gas separation, molecular sensing, catalysis and drug delivery.

93 one metal have a variety of applications in sensing, catalysis, and biomedicine.

94 The lysosomal membrane is the locus for sensing cellular nutrient levels, which are transduced t

95 activates the innate immunity cytosolic DNA-sensing cGAS-STING (cyclic GMP-AMP synthase linked to st

96 ly hybridizes with capture probe on the gold sensing chip and the unpaired fragment of target DNA wor

97 A metamaterial sensing chip was designed for increasing of absorption c

98 n spectroscopy system, THz nano-metamaterial sensing chips were prepared for great enhancing of detec

99 ecruitment of the MRE11-RAD50-NBS1 (MRN) DSB-sensing complex to viral genomes and activation of the A

100 odular design that can incorporate different sensing components for greater target specificity and th

101 ntaining protein 4 (NLRC4) inflammasome upon sensing components of the type III secretion system (T3S

102 Genes encoding types I and IV pili, quorum sensing components, and proteins involved in biofilm for

103 ted by administration of pro- and antiquorum-sensing compounds.

104 ent here the development of a novel lysozyme sensing concept based on the use of Micrococcus lysodeik

105 thway as a key component of neurogenic niche sensing, contributing to the regulation of neural stem c

106 Quorum sensing controlled virulence factors include secreted to

107 We report that a previously unknown, quorum-sensing-controlled LysR-type transcriptional regulator,

108 ng non-uniform sampling (NUS) and compressed sensing (CS) reconstruction, it is possible to accelerat

109 ionic liquid (IL) can increase the electrode sensing current toward different analytes.

110 oglia regulate the brain microenvironment by sensing damage and neutralizing potentially harmful insu

111 Using remote sensing data and global databases, we calibrated a Rando

112 lication can be used for sharing of in-field sensing data from any remote location to the central wat

113 We used remote sensing data to show that this precocious phenology is u

114 The P. aeruginosa quorum-sensing-deficient DeltalasR mutant also enhances C. albi

115 A new sensing device was developed to achieve ultrahigh sensit

116 nnels have the potential to function as nano-sensing devices capable of single peptide molecule ident

117 conformational changes of the KCNQ3 voltage-sensing domains (VSDs) in response to voltage, retigabin

118 ting the diverse S1-S2 region within voltage-sensing domains provides an avenue to develop subtype se

119 s led to advancements in a number of crucial sensing domains, including biomolecules, environmental t

120 y (via oxygen sensing) or indirectly (via NO sensing downstream of NR activity).

121 em for gas storage and separations, chemical sensing, drug delivery, catalysis, and nanoscale devices

122 e, and often strategically positioned Ca(2+)-sensing elements.

123 Cytosolic nucleic acid sensing elicits interferon production for primary antivi

124 e the advantages of nanopore single-molecule sensing, field-effect transistors, and recognition chemi

125 onal mass transport from the solution to the sensing film, resulting in an increase of peak current w

126 microfluidic platform with fully integrated sensing for on-body testing of human sweat.

127 Here we propose tunable resistive pulse sensing for simultaneous size and surface charge measure

128 d sensitivity for label free DNA and protein sensing for the first time.

129 We describe a method, based on magnetic sensing, for measuring eye movements in head-fixed and f

130 cholesterol independently from its arginine-sensing function.

131 Here we show that a methylation-sensing gene regulatory circuit centered on a 5-methylcy

132 nover, inflammation, and oxygen and nutrient sensing have been discovered for organelles that were on

133 ajority of developments in IC-functionalized sensing have focused on IC selectivity or sensitivity or

134 ethod and examined for non-enzymatic glucose sensing in ionic liquids by cyclic voltammetry and chron

135 plants, the molecular players involved in Pi sensing in mammals remain unknown.

136 ignalling in the hypothalamus and starvation sensing in mice.

137 and selective SPR chip for folate biomarker sensing in serum.

138 works with Myo7a motors and coordinate force sensing in stereocilia.

139 sensing modes, enabling accurate ( +/- 2.5%) sensing in the 0-95% RH range with a detection limit of

140 K(+) NS allows fluorescence-based potassium sensing in the range of 20 mM to 1 M.

141 We propose that mTOR folate sensing in trophoblast cells matches placental nutrient

142 insulin resistant, and have impaired glucose sensing, indicating a critical role for brain GLUT4 in s

143 ated by microorganisms as a result of quorum sensing, influence the water-membrane interface and are

144 Acid-sensing ion channels (ASICs) are neuronal receptors for

145 Acid-sensing ion channels (ASICs) are proton-activated Na(+)

146 Acid-sensing ion channels (ASICs) form both homotrimeric and

147 CO2 to induce an acidosis and activate acid sensing ion channels.

148 Quorum sensing is a process of cell-cell communication that bac

149 eus We demonstrate that P. aeruginosa quorum sensing is inhibited by physiological levels of serum al

150 The involvement of PCFT in mTOR folate sensing is not dependent on its function as a plasma mem

151 s a ratiometric response, while a "turn-off" sensing is observed specifically in the presence of inte

152 ith the nanocomposite for the formation of a sensing layer and improving the performance of the aptas

153 iminated this chemical step by introducing a sensing layer modification using electrospun amyloid lik

154 r layer of unmodified reduced graphene (rGO; sensing layer) micromotors.

155 ngutans with high-resolution airborne remote sensing (Light Detection and Ranging) to understand oran

156 rmone receptors (NRs) regulate physiology by sensing lipophilic ligands and adapting cellular transcr

157 but deletion of the unfolded protein stress-sensing luminal domain of the UPR transducers PERK and I

158 specific RLKs could be components of the ROS sensing machinery or ROS sensors.

159 evelop concepts to coat surfaces with quorum-sensing-manipulation molecules as a method to control co

160 otential for near-infrared imaging, chemical sensing, materials engineering, and quantum information

161 mTOR folate sensing may have broad biological significance because o

162 he hyperosmotic-response pathway in nutrient sensing may indicate that cells use osmolarity as a prox

163 major cellular and molecular mechanisms for sensing mechanical and chemical cues have been elucidate

164 This proof-of-principle study introduces a sensing mechanism for single-molecule detection of enzym

165 The sensing mechanism is based upon ROS-induced oxidation of

166 apable of detecting cisplatin, the signal-on sensing mechanism is better suited for real time analysi

167 hese findings reveal a key parasite nutrient-sensing mechanism that is critical for modulating parasi

168 ssion (MICE) can be utilized as an effective sensing mechanism.

169 er with plant Cys oxidases, act as an oxygen-sensing mechanism.

170 , we investigated the role of cellular sugar-sensing mechanisms in the elongation of hypocotyls in re

171 ad to both turn-on and turn-off fluorescence sensing mechanisms, enhancing the discriminatory propert

172 owever, in comparison to the well-understood sensing mechanisms, such as photo-induced electron trans

173 ch describe the types, model specifications, sensing mechanisms, target biomarkers, and analytical pe

174 ing current electrokinetic (ACEK) capacitive sensing method has been reported to demonstrate very pro

175 The reactive and dissipative sensing methods, characterized by light-analyte interact

176 mmunogenic T cell responses, the latter upon sensing microbes.

177 ptors (TLRs) are innate immune receptors for sensing microbial molecules and damage-associated molecu

178 This new sensing modality is insensitive to the magnetic field ho

179 sfully introduced a flexible supercapacitive sensing modality to all-fabric materials for wearable pr

180 tion of gravimetric, optical, and electrical sensing modes, enabling accurate ( +/- 2.5%) sensing in

181 TAZ act as on-off mechanosensing switches by sensing modifications in extracellular matrix (ECM) comp

182 Pseudomonas quinolone signal (PQS), a quorum sensing molecule that activates the expression of severa

183 ,E-farnesol as a virulence factor and quorum sensing molecule that prevents the yeast to hyphal conve

184 ive stress required the canonical CXXC redox-sensing motif.

185 mponents and be used in applications such as sensing, nanofocusing, and nanolasing.

186 c cells (CD8alpha(+) DCs) and is involved in sensing necrotic cells.

187 Temperature-sensing neurons in the Drosophila brain cooperate with t

188 nane X receptor (PXR, NR1I2) is a xenobiotic-sensing nuclear receptor that modulates the metabolic re

189 isted metastatic process and establish lipid-sensing nuclear receptors in the microenvironmental regu

190 sed, absolute radio-frequency electric field sensing of 5 muV cm(-1) Hz(-1/2).

191 This is shown for selective sensing of an anti-insulin antibody in the presence of i

192 The BiO-SPEs were evaluated toward the sensing of APAP and INH in human serum, urine, saliva, a

193 strong electrocatalytic activity toward the sensing of APAP and INH with an enhanced analytical sign

194 that enable Kretschmann-configured plasmonic sensing of bacterial toxins.

195 thermore, TLR2 but not TLR4 was critical for sensing of cell wall extracts and whole corynebacteria.

196 These results reveal innate immune sensing of circRNA and highlight introns-the predominant

197 Sensing of cytosolic nucleotides is a critical initial s

198 ood at the molecular level about the initial sensing of environmental stress.

199 n elegant navigational strategy based on the sensing of flow velocity gradients and provide a compreh

200 Here, we report that the sensing of IAV RNA by retinoic acid inducible gene I (RI

201 Innate sensing of influenza virus infection induces activation

202 ld be implemented in other systems and drive sensing of integrity and response by regeneration in oth

203 lytical device (EmuPADs) for electrochemical sensing of ketamine.

204 f Thr172 phosphorylation.AMPK is involved in sensing of metabolic stress.

205 tive ionophores dedicated to electrochemical sensing of molecular ions.

206 ll AIEgens are fruitfully employed for rapid sensing of nitroaromatic compounds (NACs) where picric a

207 e Vgamma9Vdelta2 T cell response begins with sensing of pAg via the intracellular domain of the butyr

208 e mediated by the same cellular pathway, but sensing of physical stimuli remains poorly understood.

209 regulatory elements that directly couple the sensing of small molecules to gene expression.

210 ed atomic-scale spatial resolution in remote sensing of spins may ultimately allow the structural ima

211 eptor in an inactive state and attenuate its sensing of viral RNA (vRNA).

212 tion of an MOF coating opens the way for the sensing of volatile organic compounds (VOCs) in gaseous

213 Highly promising photonics-based chemical sensing opened up by the new guest@MOF composite systems

214 can also be adopted for other similar remote sensing or advanced imaging applications such as geologi

215 end rule pathway either directly (via oxygen sensing) or indirectly (via NO sensing downstream of NR

216 In terms of sensing, our proposed sensor can detect E.

217 iew App was developed to control the optical sensing parameters and to align each sample to the corre

218 interacted physically with the nucleic acid sensing pathway and targeted TBK1 (TANK binding kinase 1

219 esis and highlight the role of this nutrient-sensing pathway in developmental plasticity and metaboli

220 s indicate that there is an additional light-sensing pathway in fly pacemaker neurons.

221 PGL activated the STING cytosolic sensing pathway in resident macrophages, inducing the pr

222 irus infection have defects in the STING DNA-sensing pathway, which partially accounts for the rescue

223 We conclude that the sugar-sensing pathways act via Pma1 to invoke coordinated chan

224 e an overview of the involvement of nutrient-sensing pathways in controlling both reproductive functi

225 e the relative contribution of the two sugar-sensing pathways to pH regulation.

226 e abundance and is regulated by both glucose-sensing pathways, ATP is largely unaffected and therefor

227 Sensing performance factors, i.e., sensitivity, a detect

228 LPG sensing performance of pristine TiO2 and Pd:TiO2 nanorod

229 ed spectroscopy, revealing that the enhanced sensing performance originates from UVO-derived hydroxyl

230 Sensing performance was compared in terms of response va

231 The self-powered sensing performance, together with its solution processa

232 nanosensor design thus provides a promising sensing platform for real-time detection and optical det

233 ed, demonstrating the potential of the multi-sensing platform for tracking these outcomes.

234 The development of this sensing platform is such that it can be assessed in non-

235 The NP sensing platform offer a modular design that can incorpo

236 avidin and graphene for the development of a sensing platform that can be used for the detection of b

237 inner surface provides an excellent on-chip sensing platform that truly opens up the possibility for

238 Herein, we report a nanoscale protein-sensing platform with a non-equilibrium on-off switch th

239 he first example of 3D printed light-guiding sensing platforms and demonstrates the versatility and b

240 urization techniques, advanced materials and sensing platforms such as lab-on-chip, lab-on-CD, lab-on

241 The sensing probe coated with XO entrapped Ta2O5 nanofibers

242 The optimized sensing probe possesses a remarkably good sensitivity of

243 ght have played an important role in the gas sensing process.

244 activator that subverts the host cell energy-sensing program to support viral productive growth irres

245 MOFs with widely varied fluorometric sensing properties have been developed using the design

246 pect that has been overlooked is the mechano-sensing properties of the cell.

247 on technique to increase the electrochemical sensing properties.

248 point mutations in the intracellular Ca(2+)-sensing protein calmodulin (CaM) are arrhythmogenic, yet

249 nstituted in artificial membrane systems for sensing purposes.

250 vus that lack genetic components of a quorum-sensing (QS) apparatus have a rapid and potent killing p

251 causes the same regulatory effects in quorum sensing (QS) as the common signaling molecule N-acyl-hom

252 A dynamic sensing range of 1pM to 1nM is reported, and a limit of

253 plitude, cationic channel TRPC6, and calcium sensing receptor (CaSR) expression.

254 were attributable to the activity of calcium-sensing receptors (CaSRs), which appear to be functional

255 d receptors such as GPR131 (TGR5) and proton-sensing receptors such as GPR65 show similar features.

256 rinsic immunity that causes impaired (ds)RNA sensing, reduced IFN induction, and susceptibility to th

257 Biological quorum sensing refers to the ability of cells to gauge their po

258 covery points to a mechanism of nucleic acid sensing regulation that may be of particular importance

259 y the novel TetR-family transcriptional zinc-sensing regulator SczA.

260 us, our study in live animals uncovers a VB2-sensing/response pathway that regulates food-uptake, a m

261 Defects in ROS-mediated microbe size sensing resulted in large neutrophil infiltrates and clu

262 -nucleotide resolution for the I-A type 2'dG-sensing riboswitch from Mesoplasma florum by NMR spectro

263 sequently, it is less clear how the unbound, sensing riboswitch refolds into the ligand binding-induc

264 Here we report a sensing scheme for detection of microRNA (miRNA) using e

265 Similarly, streptavidin sensing shows the lowest detection of 1ngml(-1) with a l

266 ely triggered in vitro by a dynamical quorum sensing signal involving Yap and Notch signaling.

267 that an animal manipulates bacterial quorum-sensing signals and that this modification leads to a ph

268 rapid, inexpensive, robust and user-friendly sensing strategy that offers a promising approach for th

269 -in-a-syringe (LIS) device is developed as a sensing strategy.

270 ha-TNFR1 signaling rather than direct ligand sensing, suggesting a form of quorum sensing among neutr

271 ality, biocompatibility, and giant effective sensing surface.

272 ong-chain fatty acid belonging to the quorum-sensing system of B. multivorans were tested.

273 strates the significance of the pellet-based sensing system towards realizing a reusable, point-of-ca

274 le, sensitive, selective, and cost-effective sensing systems to detect ZIKV at picomolar concentratio

275 Cl(-) was found at the 1.0 pM level for both sensing systems.

276 This computational sensing technique can find numerous uses in global healt

277 proach performs as well as other compressive sensing techniques with greatly simplified post processi

278 of noncontact magnetic-energy harvesting and sensing technologies.

279 on to confocal microscopy, this quantitative sensing technology allowed for a high-throughput screeni

280 ional change in BTN3A1 is a key event of pAg sensing that ultimately leads to T cell activation.

281 Stromal-interaction molecule 1 (STIM1), upon sensing the depletion of (Ca(2+)) from the endoplasmic r

282 nt body sites, which play important roles in sensing the environment, protecting against colonization

283 The indifference of HSC to nutrient sensing through RagA contributes to their molecular resi

284 Unicellular organisms use gradient sensing to move (chemotaxis) or grow (chemotropism) towa

285 acy is developed to use with ACEK capacitive sensing to produce a true POC technology.

286 modular platform for rewiring diverse ligand sensing to targeted genome regulation for engineering ce

287 ntrol plant architecture by coupling gravity sensing to the formation of auxin gradients that overrid

288 es RIG-I signaling, ubiquitination, and vRNP sensing to trigger activation of programmed cell death p

289 uclear translocation of the lysosomal stress-sensing transcription factor EB and, eventually, cell de

290 Optogenetic self-stimulation of acid-sensing TRCs in thirsty animals induced robust drinking

291 ic materials for wearable pressure and force sensing using an elastic ionic-electronic interface.

292 The simultaneous electroanalytical sensing using BiO-SPEs exhibited strong electrocatalytic

293 that flavonoids specifically inhibit quorum sensing via antagonism of the autoinducer-binding recept

294 Low volume (1-5 muL) sensing was achieved through use of a novel sensor stack

295 The optimal fiber length for Raman gas sensing was found to be 15 cm in our spectroscopic syste

296 Ammonium sensing was not involved in the response, but ammonium m

297 inding site is coupled to changes in voltage sensing, we used voltage-clamp fluorometry to track conf

298 and transcription-coupled (CSB-1) NER in ICL sensing were exposed.

299 n (NDE) methods are based on single modality sensing which is not adequate to evaluate structural int

300 cell-to-cell communication (known as quorum sensing), which has previously been described in mesophi