ライフサイエンスコーパス: property

1 uit in the brainstem with a common molecular property.

2 bed sorption of PFASs better than any single property.

3 ptor 35 (GPR35) and exhibits antinociceptive property.

4 ed side chains to enhance the membrane lytic property.

5 sufficient to understand their architectural properties.

6 he exception for vodkas, exhibit antioxidant properties.

7 oxide value, volatile compounds, and sensory properties.

8 odification which exhibit tailorable optical properties.

9 y covary in molecular, cellular, and circuit properties.

10 to their aggregation-induced emission (AIE) properties.

11 g this process, which thus impacts its final properties.

12 patterns transitioned from low-to-high level properties.

13 istry to analyze their repair and phagocytic properties.

14 tion, the size, the density, and the surface properties.

15 ese three groups have similar spatial coding properties.

16 s integrity, leading to loss of function and properties.

17 ond conferring special chemical and physical properties.

18 ting a wide range of materials with tailored properties.

19 enched glasses have a distinct structure and properties.

20 n organisation and its underlying biological properties.

21 tion alters morphine's analgesic and hedonic properties.

22 ors affecting both cheese microstructure and properties.

23 one account for these distinct physiological properties.

24 biota, as well as on community and ecosystem properties.

25 se goal is the design of solids with bespoke properties.

26 y of new hierarchical solids with collective properties.

27 on carbon nanomaterials with exotic quantum properties.

28 -like artificial materials with controllable properties.

29 o assess their molecular shape diversity and properties.

30 arious functional materials with macroscopic properties.

31 problems differing in structural or sensory properties.

32 pse, also resulted in unrealistic relaxation properties.

33 low allergenicity and excellent nutritional properties.

34 instant products with improved aroma release properties.

35 ctural elements define its unique functional properties.

36 ncer cell subpopulations with stem cell-like properties.

37 ted for their antioxidant and cytoprotective properties.

38 07 to ensure their superior charge-transport properties.

39 eptual (typical location), but not physical, properties.

40 ir favorable spectroscopic and photoreaction properties.

41 ion sites with nucleophilic or electrophilic properties.

42 level and is observed in most spectroscopic properties.

43 ns serving the universal and robust adhesive properties.

44 ctions are required to reproduce its thermal properties.

45 and integration, as well as emergent network properties.

46 liver uptake caused by poor physicochemical properties.

47 y, likely in response to differences in soil properties.

48 e combination of their optimal photophysical properties.

49 urons (CINs) and changes their physiological properties.

50 pply, restoring optimal diaphragm functional properties.

51 he two pools of Lck have different molecular properties.

52 ased on differences in physicochemical grain properties.

53 ray of solutions with varying polarities and properties.

54 eir unique optical, magnetic, and electrical properties.

55 anical, thermal, barrier, and processability properties.

56 avonols and carotenoids with anticholinergic properties.

57 reate structures with extraordinary physical properties (1-4).

58 n approach-has led to definition of unifying properties, a hallmark of the science of chronobiology.

59 kinesin-binding or phosphoinositide-binding properties abrogated the regenerative effects.

60 thanks to its interesting electroanalytical properties, absence of treatment requirement, cost-effec

61 In this study, we represent a collection of properties affecting the fitness at a given location usi

62 The particle size measurements, functional properties and antioxidant potential of starch nanoparti

63 The classification, synthesis, properties and applications of dually modified starches

64 cleic acids without perturbing their natural properties and behaviour.

65 vivo active RO7101556 (18B) having excellent properties and being selected as an advanced candidate.

66 pulation exposure to these detailed particle properties and compared them to mass-based exposures.

67 mmature neutrophil, that had neuroprotective properties and drove CNS axon regeneration in vivo, in p

68 o inspire readers by further elucidating the properties and functionalities of existing nanomaterials

69 ne van der Waals heterostructures with novel properties and functionality not accessible by conventio

70 s can depend on the interaction between soil properties and irrigation management, which in turn affe

71 a great variability in its physical-chemical properties and is a basis for its broad successful appli

72 arget affinity with balanced physicochemical properties and low human cytotoxicity.

73 zoelectric because of its highly directional properties and non-centrosymmetric lattice structure.

74 raphene devices with preserved 2D electronic properties and novel functionalities.

75 t of changes to atomic-level physicochemical properties and of oxidative damage mechanisms for multip

76 d for decades because of their extraordinary properties and promising applications derived from the c

77 nce of nanoconfinement on membrane transport properties and provide enhanced fundamental understandin

78 The properties and stereochemical reactivity of cyclobutadie

79 o of these cores are related to the spectral properties and walks of length one and two which contain

80 heir antiviral, antifungal and antibacterial properties, and are considered potential therapeutic age

81 lity and neuron loss, have anti-inflammatory properties, and are well tolerated by the brain, D-serin

82 iary metastasis and stemness, unique stromal properties, and dysfunctional intratumoral immune infilt

83 ronmental stresses, in their calcium binding properties, and in their conformational dynamics in the

84 dies on the developmental origins, migratory properties, and morphology of ChCs.

85 to enrich their proteomes with antioxidative properties, and speculate as to why that is.

86 , selective inhibitor of SHP2 with drug-like properties, and targeting SHP2 may serve as a therapeuti

87 ar bridges, suggesting that shared intrinsic properties are apoptotic determinants.

88 s considered as a compressible fluid and its properties are derived from a Cubic Plus Association (CP

89 trigger dopamine signals, but their release properties are not well understood.

90 Its functional properties are regulated in a tissue-specific manner thr

91 These properties are widely acknowledged to depend on the uniq

92 with known excitonic up- and down-conversion properties, are attached to a de novo-designed protein,

93 We show that these puzzling properties arise from a duality between pairs of configu

94 ting sequences of antibodies to their unique properties as inhibitors.

95 synergistic optimization of bulk and surface properties, as a result, enhances the intrinsic activity

96 and glutamate 355, that influence pH gating properties, as well as a single residue, aspartate 348,

97 ed materials and devices with unique optical properties at the macroscale.

98 stability, microstructures, and resulting TE properties at the operation temperatures.

99 anisms unrelated to the previously cytotoxic properties attributed to HDAC inhibitors.

100 nctional food ingredients with anti-diabetic properties because strong alpha-amylase inhibition gener

101 ht not exhibit typical critical slowing down properties before a critical transition, the rate of inc

102 ring attractors elegantly account for these properties, but their relationship to brain circuits is

103 ith high crystallinity and remarkable porous properties by grinding and heating raw materials.

104 additional factors together with HLA-binding properties by using machine-learning algorithms may incr

105 finity chromatography that showed antifreeze property by ice recrystallization inhibition.

106 dendrimers, with unprecedented structure-to-property capacity but with typically tedious synthetic p

107 d for their influence on oil yield, chemical properties, carotenoid and chlorophyll contents, total p

108 pacitance and TEER represent two independent properties characterizing the monolayer.

109 ated membrane excitability, with biophysical properties closely resembling those of fast-spiking inte

110 We further discuss how these properties contribute to intestinal development and the

111 s, needed for materials design and structure-property control, is often still a considerable challeng

112 n of Axl suppressed cell intrinsic oncogenic properties, decreased tumor growth, reduced the incidenc

113 Multiple soil properties described sorption of PFASs better than any s

114 We further show that those different binding properties directly translate to distinct biological fun

115 These results suggest that motoneuron properties do not mature by cell autonomous mechanisms a

116 y rely on chromogenic, fluorogenic, or redox properties for analyte detection that, in many instances

117 materials as well as potential game-changing properties for optoelectronics, energy, and beyond.

118 ignin, to improve forage quality and biomass properties for processing to fuels and bioproducts.

119 itu observations of SOC, litterfall and soil properties from 206 sites covering different forest and

120 e-dimensional aluminosilicates having unique properties from the size and connectivity of their sub-n

121 ogous to the human siesta, is a "hard-wired" property gated by specific neurons of the master clock t

122 ver, no spontaneous room-temperature ferroic property has been observed to date in orthorhombic RMnO(

123 microstructure and corresponding mechanical properties, however, are not fully understood, nor is it

124 ever, genes that define electrophysiological properties in failing human heart ventricles have not be

125 Interaction effects can change materials properties in intriguing ways, and they have, in general

126 n as (18)F-SDM-8), which displayed favorable properties in monkeys.

127 usly shown favorable in vivo biodistribution properties in mouse models of CAIX-positive clear cell r

128 Combination of these properties in one filter will lead to the production of

129 able to electrically manipulate the magnetic properties in recently discovered van der Waals ferromag

130 etic profile in rodents, and antinociceptive properties in the capsaicin and partial sciatic nerve li

131 e with antibiotic, antifungal and anticancer properties, in S. cerevisiae.

132 fficient to inhibit several mesenchymal-like properties including cellular invasion and colony format

133 rs to the Ruminococcin C1 important clinical properties including stability to digestive conditions a

134 erials that exhibit a wide range of physical properties, including giant Rashba spin splitting and an

135 with transparent conducting electrode (TCE) properties, including high electrical conductivity (~11

136 as found to possess superior pharmacological properties, including improved resistance to enzymatic d

137 ficacy and overall promising pharmacokinetic properties, indicating their therapeutic potential for t

138 scalability, as well as controllable loading properties, is a flexible platform that can be extended

139 ns, the conjugates also retain T-independent properties, leading to detrimental effects on immune res

140 These properties make AAV1 a promising anterograde transsynapt

141 The results suggest that the tissue property mismatch at the gray-white matter interface pla

142 his loop confers fusion activation and entry properties more in line with betacoronaviruses in lineag

143 he synthesis and evaluation of anion-binding properties of 12 new receptors from the unclosed cryptan

144 T cells can sometimes acquire properties of a memory cell without encountering foreign

145 s (SARs) and analysis of the physicochemical properties of a pyrazolopyrimidine-derived compound seri

146 ule force spectroscopy in vitro displays the properties of a random coil and acts as an entropic spri

147 st be understood because the electrochemical properties of a solvent can be heavily influenced by its

148 Antibacterial and anti-melanosis properties of all extracts were examined.

149 used as a model organism for studying common properties of all herpesviruses.

150 calculations indicate that the fluorescence properties of amyloid-bound MHB can be correlated to the

151 onsequently, to use the unique photophysical properties of An-BA to improve glycoform differentiation

152 The target binding properties of antibodies are critical for their efficacy

153 gh systematic optimization of the electronic properties of aryl fluorosulfates.

154 1 model and understand the putative regional properties of astrocyte DISC1, we assessed whether knock

155 then discussed in relation to the catalytic properties of Au-based monometallic and bimetallic nanop

156 ility of strain engineering of the transport properties of BAs for application in electronic devices.

157 Harnessing the material properties of bioinspired systems such as pollen paper o

158 ion of parameters controlling the electrical properties of biological neurons is essential to determi

159 ntal blocks may be attributed to the unusual properties of bnAb variable regions, such as poly-reacti

160 is biosensor, which combines the synergistic properties of both CNTs and AuNPs, represents a promisin

161 n signature was enriched and the surveilling properties of brain T(RM) cells was revealed by intravit

162 fficulties in characterizing the chiroptical properties of bulk crystals, and also due to the difficu

163 ctivity, a process that alters the intrinsic properties of CA1 interneurons 3 h following learning, i

164 The properties of catenated nitrogen molecules, molecules co

165 d affect the lifetime, albedo, and radiative properties of clouds containing both supercooled liquid

166 Moreover, key physical properties of complex-oxide thin films, such as piezoele

167 ght-induced changes in anatomy and hydraulic properties of contrasting grapevine rootstocks are coupl

168 ute to improved phytochemical and functional properties of cornmeal porridges.

169 Here, we characterize the functional properties of CysLTR2-L129Q.

170 nctional effective properties since the best properties of different materials can be judiciously com

171 e and opens avenues for controlling physical properties of different MXenes with a limitless number o

172 al inhibition can account well for the known properties of direction selectivity in carnivores and pr

173 etabolism, elimination, and toxicity (ADMET) properties of drug candidates are important for their ef

174 due to the lower nonlinearity in the elastic properties of ex vivo tissue.

175 The mechanical properties of extracellular vesicles (EVs) are known to

176 e dependence of the viscoelastic and plastic properties of fibroblasts using a protocol with stepwise

177 ntial do not truly reflect the physiological properties of food antioxidants in vivo.

178 uate the bioactive constituents and physical properties of fourteen pomegranate genotypes grown in th

179 Here, we study the biochemical properties of FtsZ from Pseudomonas aeruginosa (PaFtsZ)

180 at are Cre dependent, allowing the circadian properties of genetically defined populations of cells t

181 Taking advantage of the different wetting properties of hydrophilic and hydrophobic areas in the c

182 Functional properties of infrared heat-moisture treated (HMT) maize

183 sensitivity of the Ca(2+) transient shape to properties of IP(3)R activation.

184 Due to optimized thickness and optical properties of ITO film, a lossy-mode resonance (LMR) cou

185 emain unknown, limiting understanding of the properties of its light-responsive subunits.

186 tools, we examine the design, synthesis, and properties of light-activated degraders.

187 Further evaluation of the physiological properties of Lm128C cell in brain slices showed that Lm

188 s this question by investigating fundamental properties of lncRNA genes, revealing new insights into

189 science entails the study of structures and properties of materials at the level of single molecules

190 iding a new avenue for tuning the mechanical properties of medium- and high-entropy alloys.

191 cules and the antioxidant and antineoplastic properties of milk.

192 particles with the well-established designer properties of MOFs and, therefore, increase the scope of

193 levels of theory to obtain insight into the properties of molecular nitric acid at the surface of li

194 The functional properties of monovalent and heterobivalent ligands were

195 chemical, optical, electronic, or mechanical properties of MXenes.

196 We compared therapeutic properties of natural and engineered chemokine (C-X-C mo

197 ns provides information about the functional properties of neural networks, and thus information tran

198 ncept, we manufactured and characterized the properties of non-electronic, physical unclonable, optic

199 The solid-state properties of organic radicals depend on radical-radical

200 However, the electronic properties of oxide heterointerfaces crucially depend on

201 Functional and sensory properties of phenol-enriched foods varied as a function

202 crystal structure, and molecular recognition properties of pillar[n]arene derivative P[6]AS, which we

203 Other properties of post-MI remodelling are present in both pe

204 e dimeric SecYEG complex and oligomerization properties of SecA were strongly compromised while the l

205 he molecular composition and physicochemical properties of secondary organic aerosol (SOA).

206 d droplets and ignore the complex structural properties of spheroids.

207 transport, polaritonic, and electrochemical properties of stacked van der Waals (vdW) materials.

208 Our study provides insights into the genomic properties of structural variant classes and short tande

209 By studying the generic spatial transport properties of such proteins, we investigate here whether

210 n regions involved in sensory and appetitive properties of taste.

211 We identified the chemical properties of the aggregation pheromone that signals nes

212 Properties of the biosensor, sample, buffer fluid and ev

213 lagen is closely associated with the optical properties of the cornea, the absence of any large-scale

214 rved in the optical domain, where electrical properties of the film allowed for application of the se

215 he low-spin state is due to the pai-acceptor properties of the formazanate ligand, resulting in an "i

216 similarities represent conserved, canonical properties of the functional circuits and computational

217 roach can be used to study the heterogeneous properties of the human femoral head affected by a disea

218 illar network and the optical and mechanical properties of the macroscopic matrices, we show that tra

219 The properties of the material also result in waste that is

220 result in dramatic changes in the transport properties of the metalloporphyrin-based wire.

221 The mechanical properties of the MN array were investigated and MN pene

222 m impact of nitrogen oxides on the catalytic properties of the model catalysts.

223 recent insights into the neurocomputational properties of the motor system, we propose that beat ant

224 Understanding the structure and properties of the occlusion unit, uniquely amenable to s

225 ggests that the knowledge of the DNA-binding properties of the proteins is in itself not sufficient t

226 toacid generators and changes in the optical properties of the QDs at each patterning step.

227 on by analyzing the structure and functional properties of the SERCA mutant E340A.

228 at Rab27a may alter cell-autonomous invasive properties of the tumor cells.

229 e the functional, structural, and mechanical properties of the two components and are useful for appl

230 The morphological and nanomechanical properties of these isoforms were studied using atomic f

231 0(-6) MPa); however, the nature and physical properties of these materials remain largely unknown.

232 ice, which explains the unusual regenerative properties of these materials.

233 achieved in order to control the electronic properties of these next generation organic materials.

234 of physical, chemical, and techno-functional properties of unmodified and modified okara under optima

235 N-linked glycosylation sites can alter other properties of viral surface antigens and virions.

236 xploiting both the refractive and absorptive properties of X-ray photons.

237 istic links between the cellular and network properties of, and the computations performed by, the DG

238 ation that does not label quiescent cells, a property of most PCs.

239 o a robust n-type material exhibiting stable properties over months of testing.

240 -COF demonstrated exceptional optoelectronic properties, photocatalytic ability in superoxide anion r

241 intelligence offers promising solutions for property prediction, compound design, and retrosynthetic

242 llic structures is limited by differences in properties, processing conditions, packing, and material

243 he strong alteration of the SubPz electronic properties produced by phenyl and biphenyl moieties atta

244 nties in the contrail age, coverage, optical properties, radiative forcing, and energy forcing (EF) f

245 designing functional oxides with remarkable properties, ranging from electrical and ionic conductivi

246 nal groups (coordinating or ionic), specific properties (reducing, stimuli responsive, conductive), e

247 mbrane antigen [PSMA]-7) has shown favorable properties regarding clinical performance and radiochemi

248 ana, has potential therapeutic and medicinal properties related to multiple compounds, particularly D

249 tic candidates with distinct physicochemical properties relative to the original O-based analogue.

250 e protocadherin-15's structural and adhesive properties relevant in disease.

251 However, their charge transport properties remain elusive, plagued by the issues of exce

252 of lipid mixing on the membrane biophysical properties remain poorly understood.

253 roxyapatites are confounding materials whose properties remain uncertain, even after years of study.

254 s underlying n-3 PUFAs potential therapeutic properties remain unknown.

255 d the ability to tailor their structures and properties remains limited.

256 we discuss to what extent these hodological properties resemble those of the mammalian cortical laye

257 e IL-1 superfamily and has anti-inflammatory properties similar to those of IL-37 but through differe

258 achieve desirable multifunctional effective properties since the best properties of different materi

259 ity offer unique opportunities to tune these properties since the pore size and shape can be controll

260 To elucidate their properties, solvent and substitution effects on their li

261 en the influence of particle mixing state on properties such as particle deposition in the lung, the

262 However, other properties such as ultimate toughness, tensile strength,

263 to be a key to explaining other macroscopic properties, such as hardness.

264 Many of apo(a)'s potential pathological properties, such as inhibition of plasmin generation, ha

265 hetic opioid agonist with notoriously unique properties, such as lower abuse liability and induced re

266 er Waals chalcogenophosphates exhibit unique properties, such as negative electrostriction and multi-

267 w it can rigorously quantify gene regulatory properties suggested by experiment.

268 lowing systematic variations to the hydrogel properties tailored for the organoid of interest.

269 etween cells in different EMT states confers properties that are not induced by either EMT program al

270 tforward to fabricate and have a rich set of properties that are of potential use for quantum applica

271 s, thereby expanding the key physicochemical properties that are relevant for application in (photo)c

272 hibits spatial localization and polarization properties that can be exploited for the quantum control

273 ng the design of metamaterials with emergent properties that escape a standard group theory analysis.

274 This review explores the properties that led to such widespread use, why there is

275 The pseudokinases also showed dynamic properties that were strikingly similar to those of IRK.

276 paration of these materials and the manifold properties they possess.

277 tructure, specific loaf volume, and textural properties to the control bread.

278 drug-target residence times, and in vivo PK properties, to identify first-in-class inhibitors that d

279 es a combined probing of mechanical material properties together with the chemical composition and st

280 , allowing the optimization of thermodynamic properties together with the opportunity to design probe

281 All these properties translate to high-performance X-ray imaging w

282 acute septic episode may harbor antitumoral properties under particular circumstances.

283 e sought to characterize the lung mechanical properties underlying these two asthma phenotypes and th

284 ty analyses, including further adjusting for property values and performing exploratory mediation ana

285 plications of the JTE and PJTE in observable properties varies significantly, being especially strong

286 Detection in orchards and residential properties was real time, ~2 s per tree.

287 gle crystals, leading to anomalous transport properties well above cryogenic temperatures.

288 , antioxidant, antibacterial and hepatotoxic properties were analyzed.

289 twork and bridge centrality, and the network properties were compared between the outbreak and after

290 language always led children to believe that properties were nonaccidental, young children (4 or 5 y)

291 IFITM3 amphipathic helix and its amphipathic properties were required for virus restriction.

292 remarkable photophysical and electrochemical properties were synthesized.

293 ed modulating potency, selectivity, and ADME properties which led to the identification of the clinic

294 freedom to manipulate 3D graphene electrical properties, which may pave a new way to design new 3D gr

295 ng effect on membrane structure and physical properties, which may provide some clues to understandin

296 They also display excellent photophysical properties with a high fraction of long-lived charge car

297 odular platform that permits coupling of POM properties with different organic and metal cation funct

298 es, were associated with appreciated sensory properties, with alpha-pinene as the main volatile (14.4

299 al (3D) spatial distribution of viscoelastic properties within mesenchyme and epithelia.

300 In the first part, the saccharide hydration properties (xylose, glucose, sucrose) in pure water are