ライフサイエンスコーパス: chemical property

1 e to investigate their effect on its physico-chemical properties.

2 pids for desirable biological, physical, and chemical properties.

3 tion status groups did not modify basic wine chemical properties.

4 d helical secondary structure and remarkable chemical properties.

5 in K segments led to changes in amino acids chemical properties.

6 d dynamics, all dependent on solute size and chemical properties.

7 carbon isostere because of the similarity in chemical properties.

8 lue derivatives and their remarkable physico-chemical properties.

9 carbon-based nanostructures with predefined chemical properties.

10 important because it affects mechanical and chemical properties.

11 ials with versatile electronic, optical, and chemical properties.

12 selection pressure, and calculating sequence chemical properties.

13 lar units endowed with specific physical and chemical properties.

14 has a significant impact on its physical and chemical properties.

15 library of SWCNTs with user-defined physico-chemical properties.

16 s an essential influence on its physical and chemical properties.

17 ding compounds with unique biological and/or chemical properties.

18 dition to drug or delivery vehicle's physico-chemical properties.

19 ehicles because of their unique physical and chemical properties.

20 diamondoids have extraordinary physical and chemical properties.

21 platforms with tunable size, composition and chemical properties.

22 pyrosequencing of 16S rRNA genes and various chemical properties.

23 noparticles exhibit interesting physical and chemical properties.

24 r (electronic) structure and biophysical and chemical properties.

25 cer therapeutics with differing physical and chemical properties.

26 heir unsurpassed quintessential physical and chemical properties.

27 the late 1990s to predict their physical and chemical properties.

28 beta-glucan had a significant effects on its chemical properties.

29 heir potential to exhibit novel physical and chemical properties.

30 ds in a molecule influences its physical and chemical properties.

31 he topography but also the relevant physical-chemical properties.

32 he molecular size of the drug as well as its chemical properties.

33 ty to tailor materials with new physical and chemical properties.

34 to a broad range of particles with different chemical properties.

35 roducing novel designer proteins with unique chemical properties.

36 erent linkage compositions, size and physico-chemical properties.

37 tain a better understanding of their surface chemical properties.

38 ar-red dyes with promising spectroscopic and chemical properties.

39 alizing exceptional mechanical, physical and chemical properties.

40 nic structures, and fascinating physical and chemical properties.

41 evels of spatial control over mechanical and chemical properties.

42 computed to examine the differences in their chemical properties.

43 compounds with a wide range of physical and chemical properties.

44 components and possess diverse physical and chemical properties.

45 artially buried group with perturbed physico-chemical properties.

46 formation to achieve optimized physical and chemical properties.

47 rmacological functions of 5-HT linked to its chemical properties.

48 ccess to molecules with unique electronic or chemical properties.

49 well as its therapeutic, pharmacological and chemical properties.

50 nisotropic and even directional physical and chemical properties.

51 es, the unique size control without altering chemical properties afforded by this approach is able to

52 Combining superior physical and chemical properties and a high dielectric-fluidity facto

53 anding of their observed unique physical and chemical properties and a new paradigm for understanding

54 c pharmacokinetic model, we investigated how chemical properties and anthropometric parameters intera

55 play a wide range of attractive physical and chemical properties and are potentially important for va

56 While the physico-chemical properties and behaviour of NMs can be characte

57 The chemical properties and biological mechanisms of RNAs ar

58 better understand the influence of physical-chemical properties and biotransformation on bioaccumula

59 Many existing resources contain the chemical properties and classifications of commonly iden

60 s in synthesis as a result of their inherent chemical properties and established reactivity patterns.

61 Further constraints of the physical chemical properties and fluxes of OPEs are urgently need

62 The physico-chemical properties and functional role of these intrace

63 Pea aphid Armet's physical and chemical properties and its intracellular role are compa

64 materials with extremely unique physical and chemical properties and physiological ability to interfe

65 cycles of nonheme metalloenzymes, but their chemical properties and reactivity patterns are still po

66 Ultrathin metal oxides exhibit unique chemical properties and show promise for applications in

67 o technical challenges associated with their chemical properties and structural complexity.

68 was analysed and compared in terms of yield, chemical properties and structure.

69 or a product intake fraction, accounting for chemical properties and the exposed population.

70 The chemical properties and the surface morphology of SU-8 b

71 athways, iF and C(U) change as a function of chemical properties and to illustrate the capacity of th

72 NA sequences are encoded by their nucleotide chemical property and accumulated nucleotide frequency i

73 the hydropathy index, Van der Waals volume, chemical property and occurrence frequency of amino acid

74 study, analytical power capable of examining chemical properties, and single-molecule sensitivity.

75 w that exposure is sensitive to test set up, chemical properties, and species traits.

76 deuterostome cartilage share structural and chemical properties, and that the mechanisms of cartilag

77 sual combination of optical, electronic, and chemical properties, arising from the strong host-guest

78 at correlate drugs' structural, physical and chemical properties as well as experimental conditions w

79 rption at 280, 320 and 420nm and the physico-chemical properties as well as the generation of short c

80 sion spectra and obtained the electronic and chemical properties at the H2O/GaN interface under opera

81 polymer layers to control their physical and chemical properties, but little is understood about the

82 cessary for understanding their physical and chemical properties, but only one AuNP larger than 1 nan

83 Earth's radiative budget, and also that bulk chemical properties can be insufficient to predict SOA o

84 ll understood that nanoparticle (NP) physico-chemical properties can dictate biological responses and

85 much attention due to their atypical physico-chemical properties compared to organic molecules.

86 es in Stradivari violins have very different chemical properties compared with their modern counterpa

87 e different materials with distinct physical/chemical properties could hardly be incorporated simulta

88 ces along with detailed information on their chemical properties, descriptions, targets, toxic effect

89 xy on Al2O3 (0001), and their structural and chemical properties determined on an atomic level by abe

90 ionally been determined by soil physical and chemical properties, diagnostic horizons and pedogenic p

91 cks of cellular life, and their geometry and chemical properties distinguish membranes from other cel

92 Sharing sets of chemical data (e.g., chemical properties, docking scores, etc.) among collabo

93 ndedness, often exhibit similar physical and chemical properties due to their identical functional gr

94 bility of controlling the morphology and the chemical properties during deposition.

95 sy-to-use methods for measuring physical and chemical properties during olive fruit development.

96 The physical and chemical properties (e.g., composition, morphology, diam

97 fy reactions of substrates by changing their chemical properties, examples of reactions whose stereoc

98 is allows characterization of electronic and chemical properties for a manganese center in a cobalt o

99 ed using a subset of just three physical and chemical properties for all compounds tested.

100 rategies along with structural, physical and chemical properties for metal borohydrides, revealing a

101 erial with unique physical, vibrational, and chemical properties for potential applications in flexib

102 ic compounds may significantly alter aerosol chemical properties, for example, by suppressing particl

103 o its widespread biological roles and unique chemical properties, H2S is an appealing target for chem

104 protein/peptides with different physical and chemical properties have been modified to macroinitiator

105 their ubiquity in pharmaceuticals, yet their chemical properties have made their preparation a substa

106 abolome with diverse structures and physical/chemical properties; however, many of them are difficult

107 ystematic study of the relevant physical and chemical properties, i.e., its (electro)chemical stabili

108 opportunities to probe the new physical and chemical properties imparted by their excess charge carr

109 coordinated carbonates, as well as different chemical properties in the liquid state.

110 issions on ambient aerosol concentration and chemical properties in the Pacific Northwest region of t

111 nitrosamines (TSNAs) of varying physical and chemical properties in water by a single analysis.

112 ed MOFs can exhibit interesting physical and chemical properties including accelerated adsorption kin

113 We further correlated CCC values with CGO chemical properties including C/O ratios, carboxyl group

114 may lead to changes in chemical and physico-chemical properties including formation of submicro-/nan

115 ragments from a parent sequence with diverse chemical properties, including aliphatic, nonpolar, basi

116 knotting can impart significant physical and chemical properties, including chirality, strong and sel

117 Physico-chemical properties, including size, clustering and surf

118 ines to study the influence of the different chemical properties inferred by the amine class.

119 n of related molecules with similar physical/chemical properties is of prime industrial importance an

120 ysis, greater understanding of their surface chemical properties is required.

121 This chemical property is manifested at physiological concent

122 le ZIFs possess some attractive physical and chemical properties, it remains important to enhance the

123 riations for pesticides with a wide range of chemical properties (log KOW = 0.6-6.9) under both singl

124 Graphene's unique physical and chemical properties make it an attractive platform for u

125 Lipids have a wide range of chemical properties making their analysis difficult with

126 have reported that particles with identical chemical properties may propel in opposite directions.

127 selective arginine isosteres and (b) possess chemical properties more conducive to oral bioavailabili

128 s to the identification of critical physical-chemical properties needed to be modified.

129 devices with mechanical, optoelectronic, and chemical properties not available from inorganic semicon

130 nd wet (70% RH) conditions had the same bulk chemical properties (O:C), yet significantly different o

131 etween 190 and 900 nm), particle phase, bulk chemical properties (O:C, H:C), and molecular-level comp

132 unique crystal structures, the physical and chemical properties of 2D TMDs can be effectively tuned

133 faces maintain their patency through physico-chemical properties of a functional endothelium.

134 Here, the chemical properties of a promising oxide-based SSE (garn

135 architecture is compatible with the general chemical properties of Abeta peptide and provides a stru

136 n cause dramatic changes in the physical and chemical properties of actinide materials, degrading the

137 find this dynamic size effect to govern the chemical properties of active NSs.

138 The chemical properties of AgFeS2 nanowires were characteriz

139 ive a scoring matrix that echoes the physico-chemical properties of amino acids.

140 prerequisite to understand the physical and chemical properties of aqueous environments under superc

141 The reported optical, physical, and chemical properties of aqueous Maillard reaction mixture

142 This framework describes chemical properties of ARs, established macromolecular i

143 ative predictions on the equilibrium electro-chemical properties of articular cartilage.

144 to be an efficient modulator of the physical chemical properties of artificial lipid and rat hepatocy

145 nthesis and illustrates how the physical and chemical properties of as-synthesized solid catalytic ma

146 f atomic structures, and unique physical and chemical properties of atomically precise nanoparticles,

147 Regarding the use of XANES to assess chemical properties of Ca in human bone tissue our data

148 Knowledge of the physical and chemical properties of candidate deep-carbon carriers su

149 The chemical properties of CAP are likely related to its ano

150 Controlling the magnetic and chemical properties of carbenes by using light of differ

151 In this work, the morphological and chemical properties of Chardonnay and Gewurztraminer aro

152 Here, we test the chemical properties of cholesterol required to promote i

153 miRNAs (20-24 nucleotides) combined with the chemical properties of conventional reporter tags has ha

154 available at NCBI, we observed that physico-chemical properties of different functional units on gen

155 The altered physico-chemical properties of DNA produced by the thymine modif

156 classes of RNA genes on the basis of physico-chemical properties of DNA sequences.

157 is unwanted, as it changes the physical and chemical properties of drugs.

158 The general physical and chemical properties of each class of reagent are evaluat

159 predicts the Veff as a function of physical-chemical properties of each compound and meteorology fro

160 The objective was to evaluate physical and chemical properties of eight pomegranate accessions (sev

161 perties of the dough and the rheological and chemical properties of gluten samples extracted from the

162 res, emphasizing methods that exploit unique chemical properties of glycans or introduce unnatural fu

163 y the influence of holes on the physical and chemical properties of graphene.

164 approach to further explore the physical and chemical properties of hole- and edge-enriched boron nit

165 In this study, physico-chemical properties of honeys samples obtained from diff

166 een in the synthesis and separation methods, chemical properties of individual NPs, geometries of the

167 the Tm of the membrane controls optical and chemical properties of lipid vesicle-embedded QDs.

168 Overall, our results show that the chemical properties of lipids determine whether or not t

169 centrations, H2O greatly affects the physico-chemical properties of mantle materials, governing plane

170 w-energy electrons can affect structural and chemical properties of MAPbI3 .

171 ided engineering of the surface and (electro)chemical properties of materials, followed by the synthe

172 rder over periodic order on the physical and chemical properties of materials.

173 The physical and chemical properties of metal oxides are dramatically inf

174 ion spectroscopy, both global structures and chemical properties of metalloenzymes can be obtained co

175 xploiting the many advantageous physical and chemical properties of nanomaterials.

176 erable scope exists to vary the physical and chemical properties of nanoparticles, with subsequent im

177 al study on the difference in reactivity and chemical properties of nonheme iron(IV)-oxo compared wit

178 igital imaging to give information about the chemical properties of objects and their spatial distrib

179 Serpentinization affects the physical and chemical properties of oceanic lithosphere, represents o

180 ly driven by the uncertainty of the physical chemical properties of OPEs.

181 re, correlating the physical, mechanical and chemical properties of PM2.5 airborne pollutants should

182 afting significantly alters the physical and chemical properties of pristine MOF-5, which is evident

183 ed from statistical investigation of physico-chemical properties of protein complexes.

184 he effect of removal of phenolics on physico-chemical properties of protein isolates obtained from fl

185 rreversible alterations in both physical and chemical properties of RBCs.

186 The basic chemical properties of reactants and products in this re

187 s allows rational tuning of the spectral and chemical properties of rhodamine dyes with unprecedented

188 weathering fluxes, based on the physical and chemical properties of river basins.

189 The changes in physico-chemical properties of RTE shelf stable pasta were studi

190 the effect of moisture and gluten on physico-chemical properties of shelf-stable ready to eat (RTE) p

191 In this study, detailed chemical properties of sim (Rhodomyrtus tomentosa (Ait.)

192 des a versatile route to control the physico-chemical properties of skeletal elements.

193 bducted Alpine serpentinites to decipher the chemical properties of slab-derived fluids.

194 owth temperature on sensory quality and some chemical properties of swede and indicated a good eating

195 Analysis of the physico-chemical properties of sweeteners in the database indica

196 modification that can alter the physical and chemical properties of target proteins and that controls

197 This work is focused on the chemical properties of the 1,5-diaminonaphthalene (1,5-D

198 cted because of the different structural and chemical properties of the amino acids.

199 neither heating method altered the physical/chemical properties of the BAC.

200 The physical-chemical properties of the CLA microparticles were chara

201 n the crystal engineering field: the physico-chemical properties of the components add, merge or tran

202 We show that the chemical properties of the detergents mediate the charge

203 A detailed understanding of the physico-chemical properties of the different aggregated forms of

204 aw, in which we incorporated twelve physical-chemical properties of the dinucleotides within DNA into

205 nging task due to the identical physical and chemical properties of the enantiomers of a molecule.

206 de a means by which data on the physical and chemical properties of the environment may be collected

207 Accounting for the different chemical properties of the four halogen atoms (fluorine,

208 h mixing properties, the rheological and the chemical properties of the gluten extracted from the dou

209 ectroscopy to investigate the electronic and chemical properties of the H2O/GaN(0001) interface under

210 The interplay between the physico-chemical properties of the hierarchical zeolites and the

211 the 2D MoS2 nanoassemblies, the physical and chemical properties of the hydrogel network can be contr

212 d herein characterize the conformational and chemical properties of the hydrophobic MK-2 molecule.

213 trong correlation between the electronic and chemical properties of the material surface, and we expe

214 reby enabling the tuning of numerous physico-chemical properties of the material.

215 ith a dramatic influence on the physical and chemical properties of the mature mineralized tissue.

216 plant species, soil properties, and physical-chemical properties of the nanoparticles and their trans

217 lso yield the morphological, structural, and chemical properties of the nanostructures.

218 ein composition, 3D-architecture and physico-chemical properties of the native tissue.

219 es can significantly modify the physical and chemical properties of the parent metals.

220 r types, and counter anions in regard to the chemical properties of the polyether complexes is highli

221 irements originate in structural aspects and chemical properties of the pore lining.

222 ed SOA yields from alpha-pinene, whereas the chemical properties of the primary particles emitted by

223 s molitrix) affected dynamic rheological and chemical properties of the proteins as well as microstru

224 se) of the membrane controls the optical and chemical properties of the QDs.

225 Therefore, the inherent chemical properties of the radical were changed drastica

226 Aiming to partially characterise the physico-chemical properties of the released organic material, th

227 a limited understanding of how the physical-chemical properties of the ribosome enable proofreading.

228 We discuss the identity and chemical properties of the specific oxidants produced by

229 s synthetic materials utilising physical and chemical properties of the target cell or microorganism,

230 tions is impacted in significant part by the chemical properties of the twenty amino acids, which are

231 that make no assumptions of the physical and chemical properties of the underlying DNA sequence.

232 icated and time-consuming due to the similar chemical properties of these elements.

233 pical areas of Brazil and to verify that the chemical properties of these fruit are similar when comp

234 s procedures to accommodate the physical and chemical properties of these materials, it is possible t

235 he stereochemistry, spatial arrangement, and chemical properties of three dentin biomodifiers.

236 TiO2 that is nanoscale, or the physical and chemical properties of TiO2 that influence its human and

237 However, the physico-chemical properties of tool compounds for CB2R (e.g., th

238 h are necessary for development of aroma and chemical properties of TTB.

239 llar protein-based network, the physical and chemical properties of which can influence a multitude o

240 iosynthetic intermediates, indicating that a chemical property of trehalose is directly responsible f

241 ht a new biologically relevant aspect of the chemical property of vancomycin as a zinc chelator.

242 ctly correlates with their morphological and chemical properties, offering thus an application model

243 se members thoroughly cover relevant physico-chemical properties, or "chemistry space." Using this me

244 haracterization tool allowing the imaging of chemical properties over a wide range of organic and ino

245 Here we examined how changes in soil chemical properties over time in rehabilitated sodic and

246 GC x GC-based chemical property predictions are validated with a compi

247 Due to the various physical and chemical properties present in layered counterparts of 2

248 on nanotubes (CNTs) in terms of physical and chemical properties, production costs, use and disposal

249 eight tissues simultaneously, we identified chemical properties promoting delivery to some tissues r

250 ased assemblies with specific geometries and chemical properties remains challenging.

251 Lanthanides possess similar chemical properties rendering their separation from one

252 This comparison allows us to identify the chemical properties required for a substance to reach th

253 Physico-chemical properties, sensory characteristics, and the vi

254 separations were achieved using two sets of chemical properties (set 1: lactone, diastase activity,

255 ze and target a common and essential physico-chemical property shared by many bacterial toxins and vi

256 um drying provides samples with good physico-chemical properties, similar to lyophilized sample and b

257 study evaluated fruit quality parameters and chemical properties (soluble solids, pH, total acidity a

258 ures on the sensor surface provided superior chemical properties such as high carrier mobility and bi

259 served between log BCFss values and physical-chemical properties such as octanol-water distribution c

260 chemical definition includes descriptions of chemical properties such as stereochemical assignments,

261 ce of polymorphism could change some physico-chemical properties, such as melting and sublimation tem

262 elution behavior are not well-predicted from chemical properties, such as solubility.

263 es by using three different sets of physical chemical properties suggested that the atmosphere-ocean

264 Selenourea has different chemical properties than heavy-atom reagents and halide

265 The chemical properties that aid in each step of intracellul

266 -pH-sensitive fluorescent nanoparticles with chemical properties that allow fine-scale, multiplexed,

267 tructures that exhibit enhanced physical and chemical properties that are associated with shell surfa

268 The unique optical, electronic, and chemical properties that arise from the nanostructured a

269 sorbents with customizable size, shape, and chemical properties that do not rely on commercial suppl

270 ry distinct bilayer-associated lipid physico-chemical properties that give rise to defined phase stat

271 al processes exhibit a range of physical and chemical properties that induce inflammation and oxidati

272 bination of Cu and ZnO offered complementary chemical properties that lead to special reaction channe

273 copper-ceria interface affords complementary chemical properties that lead to special reaction pathwa

274 ns provide hypotheses for the combination of chemical properties that may result in high exposure and

275 Here, we show that, beyond its chemical properties, the detailed shape of a catalytic s

276 ut also its therapeutic, pharmacological and chemical properties, thereby substantially expediting th

277 Key chemical properties thought to influence oral absorption

278 atographic prefractionation, correlates bulk chemical properties to elemental compositions of oil-tra

279 hrough the use of silver inks with different chemical properties to prevent mixing.

280 PLA2 activity and of the membrane's physical-chemical properties to reveal new mechanistic informatio

281 Owing to its chemical properties, tyramine can react with nitrite, a

282 essments, provided that appropriate physical/chemical property, usage characteristics, and toxicologi

283 Physico-chemical properties (water activity, moisture content, f

284 Given its physical and chemical properties, we hypothesized that dermal uptake

285 To study this motor protein's mechano-chemical properties, we used a recombinant, truncated fo

286 Physico-chemical properties were consistent with those generally

287 ny significant interrelationships in physico-chemical properties were found.

288 icrobiological characteristics and proximate chemical properties were observed.

289 Both the SCO structural design and chemical properties were optimized using 2'-O-methyl, lo

290 ss burning organic aerosol concentration and chemical properties were strongly influenced by combusti

291 sents extraordinary optical, electrical, and chemical properties which are highly tunable by engineer

292 biosensors due to its excellent physical and chemical properties which facilitate electron transfer b

293 dustries, due to their unique structural and chemical properties, which are the basis of applications

294 tum dots (QDs) possess distinct physical and chemical properties, which have garnered them considerab

295 or LSBs strongly depends on its physical and chemical properties, which is heavily controlled by its

296 pidly agglomerated due to changes of surface chemical properties, which results in severe quenching o

297 The unusually broad physical and chemical property window of ionic liquids allows for a w

298 lysis, and we document variation in charcoal chemical properties with variation in CI.

299 their diverse electronic, valleytronic, and chemical properties, with the corresponding optoelectron

300 plant tissues and their unique physical and chemical properties within plant tissues.