ライフサイエンスコーパス: surface

1 anion helped partition Gnd(+) to the polymer surface.

2 o mimic the native Env present on the virion surface.

3 of MHC class I-epitope complexes at the cell surface.

4 (mPEG) to prevent its leaching out from the surface.

5 ting CO binding stronger than the (211) step surface.

6 ses due to grain boundaries and rough silver surface.

7 harged macromolecules are wrapped around its surface.

8 an additional amount of protein bound to the surface.

9 be enabled by water mobility on the protein surface.

10 ace and thus spatially vary over the protein surface.

11 all three proprotein convertases at the cell surface.

12 disordered loops protruding from the protein surface.

13 rmation of an FX reservoir at the macrophage surface.

14 neurons and be transported back to the body surface.

15 ated in very close vicinity of the electrode surface.

16 protruding (P) domain, exposed on the virion surface.

17 lity is the affinity of a liquid for a solid surface.

18 lize Wnt3a proteins on microbeads or a glass surface.

19 le within minutes after first contact with a surface.

20 r carbohydrate determinants on the bacterial surface.

21 at the reaction occurs exclusively on the Pt surface.

22 s that bite and scrape prey attached to hard surfaces.

23 scaffolds to display diverse antigen-binding surfaces.

24 well as the reactions of CO and CO2 over TMC surfaces.

25 yde (COH) groups functionalized on synthetic surfaces.

26 th hydrophobic methacrylate adhesives on wet surfaces.

27 ith increasing adsorption affinity for solid surfaces.

28 avior, mass transport, and interactions with surfaces.

29 lity of bacterial interactions with vascular surfaces.

30 Samples collected near the surface (0-20 cm) and deeper (20-40 cm) both increased b

31 ed amyloid phases and define paracrystalline surfaces able to catalyse specific enantioselective chem

32 orientation of the molecules approaching the surface, activating the O-H bonds and inducing deprotona

33 ociation to generate the structures that are surface active.

34 xamer formation, and CDC after Ab binds cell-surface Ag.

35 In April 2016, southeast Asia experienced surface air temperatures (SATs) that surpassed national

36 These surfaces allow ASF1A to form a quaternary complex with b

37 The AFM analysis of the biochip surface allowed metrological analysis of captured PMPs a

38 eduction over CuAg bimetallic electrodes and surface alloys, which we find to be more selective for t

39 teractions in bio-molecular studies and cell-surface analysis without the need for labeling processes

40 formation, and root penetration of the bone surface and analyzed by analysis of variance.

41 by preforming an SEI layer on the electrode surface and corroborated with a mixed electrolyte.

42 Surface and encapsulated limonene content was determined

43 orescent beads were conjugated to the sample surface and imaged before and during flow.

44 PLA2R co-localised with S100A10 at the cell surface and in extracellular vesicles.

45 We have identified mutations on the capsid surface and in internal networks that are responsible fo

46 rived hydroxylated species on the dielectric surface and not from chemical reactions between NO2 and

47 ethacrylamide)] grafted from the gold sensor surface and post modified with hepatitis B surface antig

48 en the titanium dioxide layer of the implant surface and the peri-implant tissues.

49 the properties of the heterogeneous protein surface and thus spatially vary over the protein surface

50 Proper pretreatment of the bonding surfaces and application of primers or composite resins

51 intering that requires both oxide-free metal surfaces and high temperature conditions.

52 ctated by the ligand coverage on nanocrystal surfaces and nanocrystal core size are responsible for t

53 into a perceptually organized collection of surfaces and objects, a process we refer to as perceptua

54 MEA remaining on the cleaned surfaces and on a wiping paper towel in a trash can was

55 th bone loss, implant function time, implant surface, and presence of plaque) with microbiologic char

56 Six patients had hepatitis B surface antibody (anti-HBs) titres above 10 mIU/mL at th

57 34 RA patients who had available hepatitis B surface antigen (HBsAg) data, 123 patients positive for

58 The serum gradient of hepatitis B surface antigen (HBsAg) varies over time after cessation

59 HBV functional cure is sustained hepatitis B surface antigen loss and anti-HBs gain, with normalizati

60 expression of distinct variants of the major surface antigen of the blood stages known as Pf EMP1 enc

61 r surface and post modified with hepatitis B surface antigen.

62 ozoites did not decline and antibodies to IE surface antigens expressing virulent phenotypes were muc

63 Large-scale RNA-binding pockets on protein surfaces are grouped by measuring their structural simil

64 of nanophotonics, a pixel's relatively large surface area ( 10 mum(2)), is in effect underutilized.

65 ured IEPOX SOA tracers with observed aerosol surface area (r(2) approximately 0.5-0.7), rate of parti

66 at a dose of 375 mg per square meter of body-surface area administered every 2 months for 3 years aft

67 oposes due to properties such as an elevated surface area and excellent electrical conductivity.

68 rials, featuring lightweight, large specific surface area and high porosity.

69 ty of the films and electrochemically active surface area of electrodes becoming accessible to the fe

70 s profoundly more active due to its enhanced surface area to volume ratio, reactive surface oxygen va

71 in nanosheets with abundant nanopores, large surface area, and highly dispersed ultrafine MgO nanocry

72 bles its conformational space and accessible surface area.

73 ies, such as membrane curvature, volume, and surface area.

74 in MFCs, strategies available for improving surface areas of anodes, dominant performance of stainle

75 te the perceived opacity and translucency of surfaces arise at a level of representation where 3D sha

76 at pH </= 3.5, a significant fraction of the surface arsenic (30-60%) has an oxidation state consiste

77 is faster, but is subject to background from surface artifacts and debris, although image processing

78 orption of the electrolytes on the electrode surface at negative potentials.

79 20 shell, preventing inward diffusion of the surface Au atoms.

80 HO-H bond via H transfer to N on the nickel surface, beneficial to the overall hydrogen evolution pr

81 m with reduced dimension via engineering the surface boundary conditions.

82 by binding to peptides presented on the cell surface by MHC class I molecules.

83 ed ATPase that confines caveolae to the cell surface by restricting the scission and subsequent endoc

84 ny bacteria swim through liquids or crawl on surfaces by rotating long appendages called flagella.

85 ls because the solvation of SO2 at the water surface can affect the reactive sites and electrophilici

86 tion of size or chemically distinct particle surfaces can determine the hygroscopicity of playa dusts

87 We demonstrated that wrinkled surfaces can guide water spreading along wrinkle orienta

88 rag contributions are essential for the hole surface carriers.

89 ory and experiments, we show that epithelial surface cells not only trigger blastoderm expansion by r

90 that is low enough for observing subtle near-surface changes such as water content variations and per

91 Lipopolysaccharide (LPS) surface charge and aggregation were unaltered in the pre

92 and the nanochannel walls reduced the native surface charge density by up to approximately 4-5 times

93 A simple way to express surface charge density of these particular GO nanosheets

94 lloids in optics, biology, and energy, their surface chemistry has become a topic of intensive resear

95 Optimum surface chemistry is a key consideration to modulate the

96 l cathode host for unveiling the challenging surface chemistry issue in Li-S batteries.

97 sult of electrostatic assumptions within the surface chemistry model and provide a strong constraint

98 ing FN structure and dynamics through tuning surface chemistry, we found that as the conformational a

99 per immobilized SAv by choosing appropriate surface chemistry.

100 n the molecular composition of residual skin surface components (RSSC).

101 pectrophotometry reveals that DNA films with surface densities up to 0.031 mg/mm(2) can reduce the tr

102 PTEN protein expression and BCR surface density may influence clinical response to thera

103 the realization of nanocavities obtained by surface deposition on a blank photonic crystal.

104 techniques of MIP deposition as thin films, surface development, and introduction of additional prop

105 hich anisotropically lifts the protection of surface Dirac fermions from backscattering.

106 and therapeutic development for other ocular surface diseases.

107 s often form part of widespread, large-scale surface drainage systems.

108 al theory (DFT) calculations reveal that the surface electron-rich nitrogen simultaneously facilitate

109 reas the thermopower is diffusion driven for surface electrons, both diffusion and phonon drag contri

110 share significant similarity in 3D shape and surface electrostatics with few, hitherto best known inh

111 nce and encourage sediment stabilisation and surface elevation.

112 We have computed the surface energies, work functions, and interlayer surface

113 developed a simple, cost-effective, portable surface enhanced Raman scattering (SERS) approach for th

114 its clinical range with Raman, a label-free surface-enhanced Raman spectroscopy (SERS) approach can

115 This analytical method using surface-enhanced Raman spectroscopy reduces sample prepa

116 to infer substantive changes to the Earth's surface environment, including the rise of atmospheric o

117 in reconstructing the oxygenation of earth's surface environment.

118 ither from ore minerals that weather in near surface environments, or due to anthropogenic releases f

119 e SEAM, cells within it that resemble ocular-surface epithelia can be isolated by pipetting and FACS

120 Response surface experiments showed that a 10g/l liquid to solid

121 t cell wall-anchored C terminus, whereas the surface-exposed N terminus is highly variable, a feature

122 Blockade of ICOSL rescues T cell ICOS surface expression and rescues, at least in part, T foll

123 Thus, HDAC inhibition restored HLA class-I surface expression in vitro and in a mouse xenotransplan

124 NK) cells as defined by accumulation of cell-surface expression of CD57 is associated with increased

125 key role for ALK2 in the BMP9/BMP10-induced surface expression of E-selectin, and both ALK1 and ALK2

126 ingly, we found that these mutations reduced surface expression of full-length G1 but not G1-DeltaNT

127 demonstrated that the epithelial cells with surface expression of PD-L1, E-cadherin, CD24, and VEGFR

128 ced IL-10 promotes the down-regulation of MC surface FcepsilonRI expression and leads to desensitizat

129 orite structure of bulk CeO2, and identifies surface features, H(+) binding sites, Ce(3+) locations,

130 oV capsid is not decorated with glycosylated surface fibers, but features 30 A-long surface protrusio

131 ood-oxygen-level dependent (BOLD) signal and surface field potential.

132 e firstly self-assembled onto gold electrode surface for the specific recognition of target dsDNA (ds

133 y of PNA/DNA heteroduplexes on the electrode surface for the subsequent attachment of ATRP initiators

134 Charged residues on the LBD surface form pathways that facilitate glutamate binding

135 surface without breaking vacuum protects the surface from the environment after fabrication until dis

136 conduction pathway to be modulated solely by surface functional groups in a chemically gated-all-arou

137 upon interaction with the negatively charged surface functional groups.

138 oordination chemistry-based strategy for the surface functionalization of the external metal nodes of

139 monstrate that, in contrast to pristine C60, surface functionalized C60 are unlikely to accumulate in

140 A diamond electrode is surface-functionalized with polyclonal anti-M1 antibodie

141 In the absence of a surface, FXII-R353A and FXII-T activate prekallikrein an

142 interference imaging to determine the Fermi surface geometry of the electronic bands surrounding the

143 tem is a dense coat that comprises a variant surface glycoprotein (VSG).

144 Recently, we showed an altered ocular surface homeostasis in unmanipulated NK1R(-/-) mice, sug

145 ting the role of SP-NK1R signaling in ocular surface homeostasis under steady-state.

146 ctivity with ATPase assay, on a set of model surfaces, i.e., nitrocellulose, polystyrene, poly(methyl

147 en PF formulations may lead to a mild ocular surface impairment.

148 ivities required for fusion, including a C2B surface implicated in SNARE complex interaction that is

149 odies were immobilized on the gold electrode surface in an optimal orientation by protein G interacti

150 dergo epithelialization and create an apical surface in contact with a cavity, a fundamental event fo

151 Finally, we vaped a surface in the laboratory and used our method to detect

152 been implicated in virulence at the mucosal surface, including contributions to colonization and imm

153 II)(aq) alone, both goethite and gamma-Al2O3 surfaces increased Fe(II) oxidation rates regardless of

154 growth of electroactive polymers through the surface-initiated electrochemically mediated atom transf

155 otolysis and radiolysis of water, solar wind-surface interactions and gas-phase collisions.

156 Ion-surface interactions between divalent Ca(2+) and Mg(2+)

157 ty in 2D materials, which can provide unique surface interactions for enabling novel forms of guided

158 ulations for Abeta(14-23) peptide shows that surface interactions induce conformational transitions o

159 NERD-both distal (median, 9.5 cell layers to surface; IQR, 1.5-13.3; P < .0001 vs ERD, BE, and contro

160 ls) and proximal (median, 5.0 cell layers to surface; IQR, 2.5-9.3 vs median 10.4 cell layers to surf

161 ; IQR, 2.5-9.3 vs median 10.4 cell layers to surface; IQR, 8.0-16.9; P = .0098 vs controls).

162 The roughness of the Al surface is controlled by changing the substrate temperat

163 the molecular catalyst on the semiconductor surface is key in controlling the selectivity for CO2 re

164 at the dominant form of TMPRSS13 on the cell surface is phosphorylated, whereas intracellular TMPRSS1

165 Cell-surface labeling experiments indicate that the dominant

166 ntiferromagnet, tetragonal CuMnAs, and an Fe surface layer.

167 de-rich cores surrounded by organic enriched surface layers containing minor inorganic seawater compo

168 sed trans-cellular binding and elevated cell-surface levels due to reduced endocytosis.

169 ed cellular aggregates connected by discrete surface linkages.

170 chloride channel, leading to reduced airway surface liquid secretion.

171 o acids and is bulkier with a larger contact surface, making greater van der Waals contacts with PR t

172 However, a suitable surface marker distinguishing the phenotypically overlap

173 Surface marker expression of CD11b+ myeloid cells was al

174 Thus, use of 2D membrane based off surface matrix may present the new platform to sensitive

175 polymethyl methacrylate (PMMA) sheet as off surface matrix was integrated in very close vicinity of

176 to stability and efficacy, but the permanent surfaces may have an edge in creating a long-term antiba

177 While Antarctic surface melt ponds are relatively well documented on som

178 rich flavonoid, hesperidin, using a response surface method comparing with the maceration extraction

179 method, followed by application of response surface methodology to identify the optimal Pd-Bi-Te cat

180 ectives of this study were to apply response surface methodology to optimize fat-soluble vitamin load

181 Response surface methodology was applied to optimize lentil ferme

182 The impact of F. johnsoniae on the tadpole surface microbiome was assessed with shotgun metagenomic

183 fers design insights for developing low-cost surface microfluidic mixing devices on open substrates.

184 The structural evolution of the Pt surface morphology strongly resembles that found in stud

185 location, combined Paris classification and surface morphology, and increasing size with increased r

186 ssociation study for molar shape and used 3D surface morphometrics to quantify subtle variation betwe

187 nd increased the abundance of total and cell-surface NHE3, NKCC2, NCC, alpha-ENaC and cleaved gamma-E

188 provide a new constraint on the controls of surface nitrate concentration in this region and allow u

189 ngth range of 334.5 to 306 nm as a result of surface nonlinearity polarization at the core-cladding i

190 mbined degenerate four-wave mixing (FWM) and surface nonlinearity polarization in an in-house designe

191 Bacterial adhesion to surfaces occurs ubiquitously and is initially reversible

192 atter (DOM) and microbial communities in the surface ocean.

193 rticular interest, since it is widespread in surface oceans, presents ecotypic differentiation and ha

194 via tethers with different dimensions on the surface of 293T cells (293T/S-alphaPEG, short-type cells

195 ng copper sulfide (CuS) nanoparticles on the surface of [(89) Zr]-labeled hollow mesoporous silica na

196 ethod of applied pressure to the basolateral surface of alveolar epithelia.

197 ed increased endoglin expression on the cell surface of an HCV core-expressing hepatocellular carcino

198 -specific, mutated peptides presented on the surface of cancer cells.

199 nce-specific molecular interactions with the surface of carbon nanotubes that remain the subject of f

200 tudy, GFP-MSCs were topically applied to the surface of cerebral cortex within 1 hour of experimental

201 iated with myosin accumulation at the apical surface of epithelial cells, as seen in the vertebrate n

202 structure was predicted to closely mimic the surface of HVEM, and we also found that both HVEM and UL

203 staining on multinucleated cells at the bone surface of inflamed mouse joints.

204 present a theoretical analysis of the Fermi surface of lithium in several relevant structures.

205 tumor marker CD133, which is located on the surface of liver cancer cells.

206 proteins and receptors are recruited to the surface of mammary epithelial cells (MECs), and the vesi

207 oscopy showed significant alterations to the surface of S. epidermidis, and electron microscopy showe

208 Domain migration is observed on the surface of ternary giant unilamellar vesicles held in a

209 a putative regulatory region located on the surface of the 60S ribosomal subunit.

210 IsdB is a receptor on the surface of the bacterial pathogen Staphylococcus aureus

211 effector docking sites at the intracellular surface of the beta1AR, but the extracellular N-terminus

212 us mechanosensitive (MS) channels on the top surface of the cells.

213 er to as the embryo sheath that forms on the surface of the embryo as it starts to elongate.

214 he binding of human plasminogen (hPg) to the surface of the human pathogen group A Streptococcus pyog

215 th mechanism in which PECs migrate along the surface of the inflow tract to reach the ventricles.

216 ng with other interfering molecules from the surface of the internal reflection element.

217 num nanoparticles positioned on the external surface of the MOF, the construct shows a high catalytic

218 " with exposed PS that are released from the surface of the otherwise intact cell.

219 The depletion of sulfur from the surface of this catalyst during the electrochemical reac

220 relaxations of clean (111), (100), and (110) surfaces of Al, Cu, Ru, Rh, Pd, Ag, Pt, and Au.

221 ochar that covers the outer and inner (pore) surfaces of biochar particles using high-resolution spec

222 ions and influence the sorption processes at surfaces of clay minerals.

223 The envelope glycoproteins (Envs) on the surfaces of HIV-1 particles are targeted by host antibod

224 Chronically stimulated surfaces of the body, in particular the gut mucosa, are

225 Gag correlated residues in specific protein surfaces of the inner face of the viral matrix and at th

226 heoretical results agree that ZnCu undergoes surface oxidation under the reaction conditions so that

227 In the oxygen evolution reaction (OER), surface oxygen adsorption plays an indispensable role in

228 anced surface area to volume ratio, reactive surface oxygen vacancy concentration and superior oxygen

229 agnetocrystalline anisotropy field (H K) and surface perpendicular magnetic anisotropy field (H KS) i

230 oxy for seawater pH-that show that the ocean surface pH was persistently low during the PETM.

231 nce is well interpreted by the dispersion of surface plasmon excited in the air TiO2 InSb trilayer sy

232 Surface plasmon resonance (SPR) biosensors are most comm

233 cells adsorbed on graphene oxide (GO)-coated Surface Plasmon Resonance (SPR) interfaces.

234 A chip-based ultrasensitive surface plasmon resonance (SPR) sensor in a checkerboard

235 erovskite solar cells that exploit localized surface plasmon resonances in ultrathin subwavelength pl

236 ar ultra-thin ThermoPhotoVoltaic cells using surface-plasmon-polariton thermal emitters, that the res

237 h multiple pyridine molecules at the capsule surface prevents them from assembling into hierarchical

238 the fixation of complement on the bacterial surface, promoted phagocytosis by macrophages and neutro

239 due to independent mechanisms that tune the surface properties.

240 lyte, which represents a key physicochemical surface property in various fields ranging from electroc

241 at antibodies to 5 proteins of the Merozoite Surface Protein 1 complex were differentially acquired b

242 Moreover, IL-33 increases NK-1 gene and surface protein expression, as well as IKbeta-alpha phos

243 sing a monoclonal antibody against a hepatic surface protein, leucine amino peptidase (LAP).

244 Expression analysis of >300 surface proteins enabled identification of IL-4-upregula

245 Isolation of surface proteins revealed higher amounts of alpha4 or be

246 s enabled identification of IL-4-upregulated surface proteins, such as CD90, CD108, CD109, and CD200R

247 llate a set of AS and DE genes encoding cell surface proteins, which present promising diagnostic and

248 lated surface fibers, but features 30 A-long surface protrusions that are formed by loops of the majo

249 ed yet synergistically combine to accelerate surface reaction kinetics by several orders of magnitude

250 Surface reaction networks involving hydrocarbons exhibit

251 The cell surface receptor CD6 regulates T cell activation in both

252 ace energies, work functions, and interlayer surface relaxations of clean (111), (100), and (110) sur

253 orecognition of complementary motifs at cell surface resulting in receptor crosslinking and apoptosis

254 Surface roughness has been reported to both increase as

255 s during freezing with important fundamental surface science implications, and it could be extended t

256 Using UV-vis and surface-sensitive IR spectroelectrochemical techniques,

257 cores and hydrolyzed Pu(IV) moieties at the surface shell.

258 Superhydrophobic surfaces (SHSs) have the potential to achieve large drag

259 tionalized C60 are unlikely to accumulate in surface soils and are readily mineralized by a range of

260 A direct comparison of bulk and surface spectral functions (taken at low photon energies

261 energies) reveals a time-reversal-invariant surface state in a local bandgap in the (110)-projected

262 oemission spectroscopy (ARPES), we show that surface states in few-monolayer MgB2 make a major contri

263 N2 O was not detectably released from surface-sterilized ferns with the Rhizobiales.

264 ng direct measurements of spatially resolved surface stresses in the continuous thickening regime, we

265 tion, which reveals an unusual "hole" on the surface, surrounded by five encephalitic-specific motifs

266 d hoc parameterization of the background sea-surface temperature (SST) gradient and a mean easterly t

267 t that is mirrored in multiple observational surface temperature datasets.

268 The model's near-surface temperature response to deforestation is consist

269 nds of square kilometers to areas of low sea surface temperatures (14.5 degrees C-17.5 degrees C) and

270 quantifies the relationship between ambient surface temperatures and EGU air emissions (CO2, SO2, an

271 gger blastoderm expansion by reducing tissue surface tension, but also drive blastoderm thinning by i

272 ripheral protein with a broad and flat basic surface that can associate with anionic phospholipids su

273 the protease plasmin generate a proteolytic surface that GAS employs to circumvent host innate immun

274 activity is mediated by a positively charged surface that is partially masked by its intramolecular i

275 tial steps of CO2 electroreduction on copper surfaces, the best current catalysts.

276 is key to understanding the potential energy surface; there is a low barrier for the pseudopericylic

277 ermore, it is also shown that on the Au(111) surface this sigma-bond metathesis can be combined with

278 ntration of dissolved CO2 near the electrode surface through rapid equilibrium between bicarbonate an

279 ieties are capable of adsorbing on the metal surface to any significant extent.

280 tments maintained a good biocompatibility of surfaces to Saos-2 osteoblasts.

281 M reconstruction and reveals limited contact surfaces to Tra1, hence it does not act as a molecular s

282 to compare NIMS sensitivity of these various surfaces toward the analysis of diverse analytes.

283 ow crystallization of indomethacin on tablet surfaces under two storage conditions: 30 degrees C/23%

284 iously established that despite the apparent surface uniformity and conserved fold of SH3 domains, th

285 Surface uplift of Northern Tibet is subject to more rece

286 obeads-peptide moieties away from the sensor surface upon test sample dropping.

287 oxylate can be completely displaced from the surface using n-alkylamines (NH2R', R' = n-butyl, n-hexy

288 n ice core bromine consistent with increased surface UV radiation indicate that the eruptions led to

289 Surface vegetation is dominated by Warnstorfia fontinali

290 rd the eMed, and also that last interglacial surface warming in the eMed was strongly amplified by wa

291 odes were fabricated by 3D printing, and the surface was electroplated with gold.

292 Surface water characteristics (e.g., high dissolved oxyg

293 These results strongly suggest that surface water mutagenicity is highly complex and driven

294 itudes flows in to replace the sinking polar surface water.

295 em, can be released into soils, ground-, and surface waters either from ore minerals that weather in

296 ant for papillae deposition on the cell wall surface, we identified the GLASSY HAIR 1 (GLH1) gene, wh

297 The drier environments with more uneven surfaces where the saddleback tortoises occur increases

298 Surfaces with metal oxide nanostructures have gained con

299 A layer of KCl deposited by e-beam to the eC surface without breaking vacuum protects the surface fro

300 dation under the reaction conditions so that surface Zn transforms into ZnO and allows ZnCu to reach