ライフサイエンスコーパス: surface

1 ed probe at a hydrophilic OH-terminated gold surface.

2 d simply providing a concentration-enhancing surface.

3 holoreceptors that remain bound at the cell surface.

4 receptor-mediated endocytosis from the cell surface.

5 ficient Zr(6)O(8) nodes resting on the Pt NP surface.

6 e S-wave velocities between the Moho and the surface.

7 plant information had implants with textured surface.

8 ions with the negatively charged microtubule surface.

9 t of ED3 clusters on the dengue (DENV) viral surface.

10 ed in the accumulation of IFITM3 at the cell surface.

11 erve an antiphagocytic function on the spore surface.

12 sicles (30 nm diameter) at the mitochondrial surface.

13 c operation stability due to CO poisoning on surface.

14 nal systems self-organizing at the spherical surface.

15 d an amorphous protein layer on the membrane surface.

16 astable He[Formula: see text] at the droplet surface.

17 s) and PD-L1 (a T-cell inactivator) on their surface.

18 inical assessment of lesion activity on root surfaces.

19 nd most of the deep traps located at crystal surfaces.

20 en wrap membrane extensions around stem cell surfaces.

21 toirradiation damage to their photosynthetic surfaces.

22 with pitch of ~8 nm, on its inner and outer surfaces.

23 ent of ferrihydrite coating on the collector surfaces.

24 diameter (203.2 nm) and a negatively charged surface (-12.7 mV).

25 On surfaces, the relationship between the surface absorption spectra and reactivity remains unexpl

26 cellular settings and at physiological cell surface abundance.

27 hemical transport model, we find that global surface accumulation-mode number concentrations increase

28 ed to the seafloor by vertical settling from surface accumulations; here, we demonstrate that the spa

29 Secondary Mo atoms on the surface act as electron pumps that stabilize oxygen-cont

30 this work, we investigate the adsorption of surface-active compounds at the water-oil interface subj

31 ly, it is found that hot holes stabilized by surface adsorbed iodide enable the site-selective oxidat

32 images illustrated a completely non-uniform surface after enzyme immobilization on the glass bead, w

33 Calculus remained on the roots surfaces after they were judged to be clean using 3.5x l

34 ays per 1- degrees C increase in global mean surface air temperature.

35 The surface Al(2)O(3) layer, formed after an initial thermal

36 , equimolar mixtures of MG2a and PGLa formed surface-aligned fibril-like structures, which induced ad

37 combination with microliquid extraction for surface analysis and liquid chromatography-mass spectrom

38 n-rich protrusions that extend from the cell surface and are important for cell-cell communication an

39 the bleaching ability, the effect on enamel surface and cytotoxicity of novel tooth-whitening formul

40 several techniques used to characterize the surface and interface regions of biological materials.

41 e product via atomistic modeling of the CdSe surface and substrates, determination of the thermodynam

42 nza viruses and are widely displayed on cell surfaces and in secreted mucus.

43 this organism's abilities to persist on dry surfaces and rapidly colonize susceptible individuals.

44 ons, and uncovers the structures of sublayer surfaces and their evolution to stable surfaces regulate

45 uired immune component secreted onto mucosal surfaces and, via the process of immune exclusion, shape

46 oxon, and without matrix effect in drinking, surface, and wastewater.

47 monella Typhimurium to hydrophobic host cell surfaces, and contributes to efficient gut colonization

48 y sialidase pretreatment, which removes cell surface anionic sialic acid.

49 ed an overlength HBV genome-and expressed HB surface antigen at levels relevant to patients.

50 ERS coronavirus Spike (S) protein, the major surface antigen of coronaviruses, which is currently in

51 on sites can alter other properties of viral surface antigens and virions.

52 notion that events at the airway epithelial surface are critical for the development of the disease.

53 In technology, droplets on solid surfaces are of widespread use for handling small amount

54 dimers, wherein the membrane-interacting BAR surfaces are sequestered and the PX lipid-binding sites

55 ing particle number (PNC), length (PLC), and surface area (PSC) concentrations, and myocardial infarc

56 observables, such as the relative accessible surface area and the interaction energy, can help charac

57 al changes in myosin heads that increase the surface area of the actin-binding regions promoting myos

58 rosity of the alginate hydrogel enhanced the surface area of the polyaniline coating.

59 uitable habitat templates with enough usable surface area to support GRD fitness by improving reprodu

60 and October 2018 with burns >=15% total body surface area with regard to infection and sepsis (Sepsis

61 suitable for attachment of ligands and high surface area), it was used in the structure of fabricate

62 anids is positively correlated with cortical surface area, cortical thickness and total cortical gray

63 ed; and beta-glucan unchanged except for the surface area.

64 their high molecular weight and total polar surface area.

65 ich Vif is predicted to bind the same PPP2R5 surface as physiologic phosphatase targets.

66 tachment of oxidized U(VI) from the UO(2)(s) surface as the rate-determining step rather than electro

67 ently has the role of neuroimmune cross-talk surfaced as a key contributor to cancer progression.

68 ttainment and maintenance of a stable ocular surface, as assessed by change in the ocular surface sev

69 hPm localizes on the bacterial surface, assisting bacterial dissemination via proteolys

70 sitive, intracellular pathogen harboring the surface-associated virulence factor InlB, which enables

71 nt bonds between molecular carbon and copper surface atoms.

72 Cell surface-based loss-of-function screens reveal that ATP7A

73 HIF-1alpha activation lowered surface BCR, CD19 and B cell-activating factor receptor

74 uced 3-O-S levels of HS diminished both cell surface binding and internalization of tau.

75 yrolysed organic matter, such as hydrophobic surface binding proteins, laccases (AA1_1), xylanases (G

76 projected topological charges of +/-1 in the surface Brillouin zone.

77 -level dynamics of EET not only on electrode surfaces, but also during respiration of other solid-pha

78 ersity measured on cucumber and tomato fruit surfaces, but not tomato leaf surfaces, increased signif

79 be used to map epitopes onto folded protein surfaces, but only if the complex rapidly dissociates.

80 d PrPC that had been liberated from the cell surface by the metalloproteinase, ADAM-10, in combinatio

81 rface casing vent flow" (SCVF), "outside the surface casing leakage" (OSCL), and "cap leakage" (CL).

82 Three types of leakage are distinguished: "surface casing vent flow" (SCVF), "outside the surface c

83 m sites, whilst significantly inhibiting the surface cation corrosion during electrocatalysis.

84 e layers, rather than surface wettability or surface charge, determines the anti-wetting performance

85 imodal porous network structure with tunable surface charge, pore size, and interlayer spacing.

86 e different organellar membranes vary, their surface charges are similarly expected to diverge.

87 rticle binding, without the need for complex surface chemistries acting as blocking agents.

88 Cell surface Cnx-ERp57 complexes reduce these extracellular d

89 circumsporozoite protein (CSP) builds up the surface coat of sporozoites and is the leading malaria p

90 the same carbohydrate modification on their surface coat.

91 (IRRs) were compared for units receiving the surface coating application and for contemporaneous cont

92 olytes, and highly fluorinated electrolytes, surface coatings that can form a solid electrolyte inter

93 Global protein surface comparison (GPSC) studies have been limited comp

94 e multitemperature batch adsorption data and surface complexation models indicate that the adsorption

95 imple solution processing with modulation of surface composition, is described.

96 to host organic compounds against the harsh surface conditions of Mars.

97 to as "treated nontronites") under Mars-like surface conditions.

98 nger irradiation times and resulted in lower surface coverage at the same wavelength (330 nm).

99 ns, even when the boundary is formed by flat surface cues, its physiological basis is not well unders

100 ria in deep skin structures unsusceptible to surface decontamination.

101 Surface defects have been a key constraint for perovskit

102 among chemical design parameters such as the surface density of enzymes, various reaction constants a

103 ar film stability is the key event in ocular surface diseases.

104 ese intertwined density waves as being Fermi surface-driven, revealing a novel ordering mechanism in

105 epithelial sheet around the ellipsoidal egg surface during a gastrulation process known as epiboly.

106 (II) compounds, which efficiently deposit to surface ecosystems.

107 opies, bonding of the two peptides to TiO(2) surfaces (either nanostructured or single-crystal TiO(2)

108 metallic STM tip electrode and the metallic surface electrode.

109 electronic biosensor using a vertical cavity surface-emitting laser (VCSEL), coupled with a fast prot

110 ent advances in scanning probe microscopy on surface enable not only direct observation of molecular

111 g volumetric strain energy at the expense of surface energy.

112 ensities of low-coordination sites on the NP surfaces enhance sublimation but suppress emissivity.

113 In this study, we fabricated the surface-enhanced Raman scattering (SERS)-based molecular

114 luorescence (MA-XRF) with minimally invasive surface-enhanced Raman spectroscopy (SERS).

115 et pH was quantified using pH nanoprobes and surface-enhanced Raman spectroscopy (SERS).

116 res showed that they supported multi-layered surface epithelialization.

117 (-) /SOX9(+) ) is involved in the renewal of surface epithelium in injured EHBT.

118 s required for phosphoflow often affect cell surface epitopes or mAb conjugates, precluding the evalu

119 ropose arises from the emission of a flux of surface excitations from the channel.

120 th basic patches constituting an RNA-binding surface exhibiting a preference for binding double-stran

121 embers of the Ig superfamily, including cell surface-exposed receptors.

122 The mutation did not affect surface expression and ligand binding but changed the su

123 eukin 6 (IL-6), IL-23, Arginase1, as well as surface expression of CD86 and programmed death ligand 1

124 lls (TCR-T cells) are not restricted by cell surface expression of their targets and are therefore po

125 pread.IMPORTANCE HIV infection modulates the surface expression of Tim-3, but the molecular determina

126 its for flow dictated by geology, leading to surface expression that can be greater or less than the

127 Reduced surface expression was reflected by smaller IPSCs, which

128 rity to present ACE2 on the exposed external surface, facilitating infection of AT2 and basal culture

129 e piedmont of Sierra de Santa Catarina-where surface faulting occurs.

130 The surface film on pure magnesium and two aluminium-contain

131 cal search for the maximum of the likelihood surface, for both the selection coefficient and the alle

132 Here we use surface force apparatus combined with systematic mutatio

133 We built a tool to assess ocular surface frailty.

134 molecular and morphological characteristics: surface glia (SG), wrapping glia (WG) and carpet glia (C

135 1 by interacting with their respective viral surfaces (glycoprotein gp120 of HIV and the fivefold axi

136 sing incorporation of GalNAzMe into the cell surface glycoproteome.

137 o V2 and hUHRF1, the linker is anchored in a surface groove of the TTD domain, resulting in creation

138 c members suppress cell death by deploying a surface groove to capture the critical BH3 alpha-helix o

139 er this interaction allows RcsF to reach the surface has remained unclear.

140 This sward surface height can be adopted as a pre-grazing target fo

141 4 h following BOP by assessing the extent of surface hemorrhage/contusion, Hematoxylin and Eosin stai

142 ly extracellular compartments or on the cell surface; hence, diverse secretion systems evolved to tra

143 e sensitivity of cooling load, and that near-surface humidity plays an equally important role.

144 Above 55 degrees C, protein surface hydrophobicity and particle size increased and a

145 ed water-holding of myofibrils and increased surface hydrophobicity.

146 rapid identification and differentiation of surface hydroxyl groups and (sub-)surface oxygen species

147 expensive, fast and affordable technique for surface improvement.

148 ace in K-Ras4B homodimerization and the beta-surface in effector binding.

149 ers apolar ligands via a concave hydrophobic surface in SAA oligomers.

150 ytes resulted in their retention at the cell surface in the form of functional gap junctions indicati

151 s tumors in vivo by anchoring to cancer cell surfaces in a pH-dependent manner.

152 tumor cells with target HLA/peptide on their surfaces in vitro.

153 f E. coli to the M13 phage on the cytosensor surface increased the charge transfer resistance, enabli

154 d tomato fruit surfaces, but not tomato leaf surfaces, increased significantly and remained elevated

155 stent with X-ray structures and reports from surface-induced dissociation (SID); (3) avidin oligomers

156 Accessibility of iron at the phagosomal surface inside macrophage is crucial for survival and vi

157 ion of optimal binding energies of important surface intermediates and to estimate the extent of pote

158 s the intrinsic activity and availability of surface iridium sites, whilst significantly inhibiting t

159 S. gordonii binding force to the C. albicans surface is significantly higher than that ofS.

160 repellency of the resulting superhydrophobic surfaces is preserved even after abrasion by sandpaper a

161 VOC concentrations through interactions with surface-laden condensed-phase reservoirs.

162 the Zn input from OW accumulated in the soil surface layer, (iii) Zn uptake by lettuce increased with

163 r results indicate that HA forms an adsorbed surface layer, but its charge, thicknesses, compressibil

164 erent (P < 0.001) when comparing sound tooth surfaces, lesion areas identified as arrested, and lesio

165 ltaneously remove both long-chain insulating surface ligands of oleic acid and oleylamine, even for u

166 Each surface loop was evolved by infectious cycling in the pr

167 n serves as a template for evolving the next surface loop.

168 The "LE-TA" method induces the formation of surface matrix on CsPbI(3) QDs, which is dominated by th

169 the levels of antigen expression at the cell surface may determine antibody-mediated cell death.

170 olvent volume) were optimized using response surface methodology (RSM) and a maximum extraction yield

171 -2)) in a TENG electrode based on quantified surface micro-contact efficiency and provides a prospect

172 Enhanced surface mobility is critical in producing stable glasses

173 in, we investigated one-year toxicity of non-surface modified silica nanoparticles (SNPs) with variat

174 ypically leverage differentially upregulated surface molecules on cancer cells.

175 rization in a two-dimensional (2-D) array of surface-mounted azobenzene-based switches was detected f

176 activate an electrochemical reaction on the surface of a semiconducting photoelectrode.

177 r is not a good representation of Env on the surface of a virion or an infected cell.

178 of only two short allergenic peptides on the surface of CpCP3, which was highly susceptible to digest

179 Listeriainnocua was inoculated on the surface of ham slices that were vacuum-packaged and flas

180 y after, budding of viral particles from the surface of infected cells.

181 well as to freely move the interface over a surface of interest.

182 e properties of molecular nitric acid at the surface of liquid water (the air-water interface).

183 cally, despite the high levels of Env on the surface of MT-4 cells, 2-fold less Env is incorporated i

184 anged in elaborate maze-like patterns on the surface of mucosal epithelial cells.

185 e thus developed avenues for engineering the surface of nanoparticles for biological applications.

186 luding the evolution of stomata-pores on the surface of plants that regulate gas exchange.

187 of the putative reactive NO(2) dimer on the surface of pure water droplets is too small to host the

188 l cardiac nerves passing along the posterior surface of the right pulmonary artery.

189 Results show that gas is transported to the surface of the system via varying dominant discontinuous

190 -3,6-diiodobenzene, which interacts with the surface of the triple-cation double-halide perovskite ma

191 to introduce fractal-like structures on the surface of these metals in a controlled (tier, compositi

192 vidence of the formation of coffinite on the surface of UO(2) at the time scale of laboratory experim

193 ic nuclear movement between apical and basal surfaces of neuroepithelia during interkinetic nuclear m

194 e strong double-stranded DNA (dsDNA)-binding surface on cGAS and sterically prevents cGAS from oligom

195 Under these conditions, many hydrophobic surfaces on proteins may be transiently exposed, and the

196 t bonding between two Au [Formula: see text] surfaces operating at 200 degrees C for an hour in a vac

197 the original panel of 260 kinases as well as surfaced other kinases that it potently inhibits.

198 tiation of surface hydroxyl groups and (sub-)surface oxygen species.

199 Co, Ni, Fe, Y) controls the concentration of surface oxygen vacancies (V(O)) in these materials where

200 Herein, we present our results showing how surface-passivated gold nanoparticles behave as syntheti

201 Surface passivation of perovskite solar cells (PSCs) usi

202 at ecosystem responses are largely driven by surface peat, but that the vast C bank at depth in peatl

203 This vertical similarity correlates to surface phytoplankton biomass but not to physical mixing

204 eriment shows that the propagation length of surface plasmon polaritons supported at the sodium-quart

205 Here we show that this is possible using a surface plasmon resonance (SPR) scattering technique.

206 In this study, a continuous angular-scanning surface plasmon resonance (SPR) technique is utilized fo

207 Here, we combine protein engineering, surface plasmon resonance characterization, and molecula

208 is lubricin-galectin-3 interaction, shown by surface plasmon resonance data indicating that recombina

209 n could be observed because of the localized surface plasmon resonance that causes impedance matching

210 Using site-directed mutagenesis, surface plasmon resonance, and crystallography, Philips

211 Using comparative genomics and surface plasmon resonance, we identified parasite-derive

212 Using this, we observe surface polariton field enhanced Raman responses at the

213 at hydrolyzed adsorbates are responsible for surface-potential inversions, and we find strong correla

214 The synergistic optimization of bulk and surface properties, as a result, enhances the intrinsic

215 composition, the size, the density, and the surface properties.

216 nvasion protein A (AipA), A. phagocytophilum surface protein (Asp14), and outer membrane protein A (O

217 CH2 was required for processing of the sperm surface protein ADAM3, which is required for sperm ferti

218 M-D), to detect exosomes by exploiting their surface protein profile.

219 detailed structure and arrangement of their surface proteins (E and prM in immature virus or M in ma

220 Secreted mucins in saliva and surface proteins of erythrocytes showed a high degree of

221 They include genes encoding transporters, surface proteins, transcriptional regulators, and metabo

222 he power of temporally resolved in situ cell-surface proteomic profiling in discovering regulators of

223 surface ultrastructure with the loss of cell surface protrusions and poor aggregation, resulting in i

224 ipathic strength that depends on the edge-to-surface ratio.

225 mining NPs in their post-use phases in which surface reactivity and hazard potential can be greatly a

226 ily attributable to intrinsic differences in surface reactivity of different Au sites in the DFT mode

227 r MYXO-CTERM proteins by using the TraA cell surface receptor as a paradigm.

228 (Hb) using the closely related IsdB and IsdH surface receptors.

229 layer surfaces and their evolution to stable surfaces regulated by inorganic Cr(3) (mu(3) -O) trimers

230 The DFT model suggested significant surface restructuring of the TiO(2) support during heter

231 lasma mass spectrometry of polished flat ore surfaces revealed that P. glomerata could effect changes

232 Exploration of the potential energy surface reveals that the cyclization step is a key step

233 ts were in accordance with Raman spectra and surface roughness obtained by atomic force microscopy im

234 t fluids and is affected by system pressure, surface roughness, and liquid wettability.

235 nia is investigated using new records of sea surface salinity (delta(18)Ow) and sea surface temperatu

236 Air and surface samples were collected from seven clinical areas

237 ransferred via thermal radiation between two surfaces separated by nanometer distances can be much la

238 surface, as assessed by change in the ocular surface severity scores was the primary outcome measure,

239 ns containing the same type of charge as the surface showed little or no difference, except that the

240 Thiocyanate anions at positively charged surface sites and negatively charged surface sites and t

241 charged surface sites and negatively charged surface sites and those participating in contact ion pai

242 ed relative to thiocyanate ions near neutral surface sites.

243 r Ar, indicating excellent crystallinity and surface smoothness; moreover, an additional substrate pr

244 med, which reflect the local symmetry of the surface: square pits on (100) facets, triangular pits on

245 Surface stability was assessed using infectivity, SARS-C

246 ism, spin ordering of the Te dopants and the surface-state-induced magnetic ordering.

247 We observe that the surface states in ZrTe(5) are robust against Li adsorpti

248 the gyroid and other triply periodic minimal surface structures, but also exceeds the theoretical max

249 nteracts with reactive components of mineral surfaces such as silicate radicals and ferrous iron.

250 escale) spectral peak that appears in global surface temperature observations appears to reflect the

251 ith a possible role in contributing to Earth surface temperature regulation.

252 ing effects were predominantly driven by sea-surface temperature thresholds or inter-ocean temperatur

253 f sea surface salinity (delta(18)Ow) and sea surface temperatures (SSTs) from the Bay of Bengal (BoB)

254 to environmental changes, such as varied sea surface temperatures caused by storms.

255 A water droplet surface tension (WDST) based innovative method was devel

256 Surface tension influences the fraction of atmospheric p

257 ds from epithelial cells with lower apparent surface tension than for mesenchymal spheroids with high

258 containing saline water as the feed with low surface tension, experiments reveal that the number of p

259 ental constraint set by the physics of water surface tension.

260 n than for mesenchymal spheroids with higher surface tension.

261 As the surface termination converts from SrO to RuO(2) , a high

262 e of air compression and drainage within the surface texture, and its role in affecting impalement un

263 igen is enabled by its binding to a metallic surface that serves as a source for electrons.

264 introns can be presented on the cancer cell surface, the development of personalized cancer vaccines

265 On surfaces, the relationship between the surface absorptio

266 science behind the topological transition on surface, thus can be used to create frontier engineering

267 In both varieties, from the surface to inner endosperms, protein and oil increased t

268 ucleosomes that disrupts all exposed histone surfaces to comprehensively assess how proteins recogniz

269 ematic mutational analysis of the functional surfaces to directly measure Syt1-membrane interaction a

270 wed that F302L does not impair KCNA2 subunit surface trafficking.

271 altered by chemical exposure history and NP surface transformations.

272 arying the total phosphine dosage during the surface treatment step.

273 ive to NN, LN and HN showed more significant surface trends and spatial structures in SOC and TN in b

274 displayed significant LPA-induced changes in surface ultrastructure with the loss of cell surface pro

275 vely controlling oxidative addition on an Au surface using an applied bias.

276 e pastes and in situ activation of electrode surfaces via cold-air plasma, we show that soft biocompa

277 soil moisture deficit, appears to intensify surface warming and anticyclonic circulation anomalies,

278 The antifouling surface was fabricated via electrodeposition using an eq

279 t of detection for culturing SARS-CoV-2 from surfaces was determined.

280 igation reaction of tetrazole functionalized surfaces was found to proceed rapidly leading to high gr

281 Aquatic and terrestrial invertebrates, surface water, sediments, soils, and plants were analyze

282 us and two bacteriophages-MS2 and phiX174-in surface waters and waste stabilization ponds by integrat

283 f magnitude larger than what is found in the surface waters.

284 umber of polyelectrolyte layers, rather than surface wettability or surface charge, determines the an

285 it a behavioral response to divert away from surfaces when vision is unavailable, indicating a short-

286 ses endogenous agrin to localize to the cell surface, where it co-clusters with beta-dystroglycan (be

287 mate contacts with the composite Phactr1/PP1 surface, which are required for efficient dephosphorylat

288 variability in the Spike protein interaction surface, which greatly influences Spike protein binding

289 motifs are mediated by its flat DNA-binding surface, which is centered on a short loop spanning K61

290 sults in the expression of spermidine on the surface, which specifically activates the PIP(3)-pathway

291 linker to form cyclic peptides on the phage surface while simultaneously introducing an electrophili

292 (CO(bridge)) is formed on the as-prepared Cu surface with Cu(0) which inhibits hydrocarbon formation.

293 distinct from that on a conventional planar surface with microscale/nanoscale textures.

294 ng of mouse brain, lung or intestinal tissue surface with minute quantities of NanO2-IR or by microin

295 cells to expand them and cover the scaffold surface with the crypt-shaped structures.

296 y employs hair-like pili to transverse moist surfaces with a jittery irregular crawl.

297 ings on the condensation frosting process on surfaces with serrated structures on the millimeter scal

298 Cobalt sulfide has interwoven surfaces with wide internal spaces that can accommodate

299 generation of two opposing apical epithelial surfaces within the centre of an initially unpolarised,

300 plasticizers in equilibrium with the polymer surface (y(0)).