ライフサイエンスコーパス: solution

1 opy that Spp2 is intrinsically disordered in solution.

2 in good agreement with the trend observed in solution.

3 roteins are surface-attached or free in bulk solution.

4 or the recovery of lysozyme from complex CEW solution.

5 of challacolloite indicates slow growth from solution.

6 ral factors, including the pH of the aqueous solution.

7 B peak and matched with that of the MB stock solution.

8 tion of the oxidant, typically O(2), in bulk solution.

9 ctive for HNO(3(g)) collection than the NaCl solution.

10 the presence of molecular iron complexes in solution.

11 phene (P3DT) to a series of acceptors in THF solution.

12 e into value-added products is an attractive solution.

13 ular lipids based on their exchange rates in solution.

14 t and characterize TL closing and opening in solution.

15 rogen transfer to the radical species in the solution.

16 n both the light- and dark-adapted states in solution.

17 n of this species provide the key for such a solution.

18 5 solution and formed some bundles in pH 6.5 solution.

19 in situ redox replace reaction in a Pd salt solution.

20 g amino acids present in the murine nutrient solution.

21 removed from its substrate and dispersed in solution.

22 in cell culture wells containing a nutrient solution.

23 , and two locally unfolded states in aqueous solution.

24 edox active neurochemicals in a multianalyte solution.

25 f compositions possible through M-site solid solutions.

26 50% better privacy than traditional DP-based solutions.

27 Gsp using YbCl(3).6H(2)O and NdCl(3).6H(2)O solutions.

28 to those obtained by using electro-activated solutions.

29 are proving to be useful as field-deployable solutions.

30 well as consumption of sucrose and saccharin solutions.

31 ion and fluorescence EEM spectra of reacting solutions.

32 and sugaring of fructose-glucose-water model solutions.

33 ffer, hindering the development of effective solutions.

34 n the use of original and generic ophthalmic solutions.

35 the separation of the adsorbent from sample solutions.

36 bspecialty transplant nephrology and propose solutions.

37 junctions or pseudoknots in mixed metal ion solutions.

38 ation flow cell fed with 0.02 and 0.5 M NaCl solutions.

39 identify barriers to adherence and possible solutions.

40 s can be used to create frontier engineering solutions.

41 forces for phase separation in concentrated solutions.

42 box was designed to capture images of sample solutions.

43 al and microencapsulation technology provide solutions.

44 ed to compare the efficiency of five washing solutions (0.9% NaCl, 0.1% NaHCO(3), DI water, 0.001% KM

45 DSR (4.5+/-0.4 g) compared with standard PD solution (1.0+/-0.3 g; P<0.0001).

46 f the hemoglobin tetramer (human) in aqueous solution (150 mM ammonium acetate) were investigated usi

47 e per os with 10 uL of 25 mM LiCl in sucrose solution (6.50-40.10 mg/kg) or had the same solution ava

48 e GA calculations, with successful structure solution achieved from room-temperature 3D-ED data with

49 n sensing the hydrophobic regions exposed to solution after protein unfolding.

50 The open-source integrated-hardware solution and benchmark data that we provide should help

51 tions observed for these sugars both in free solution and bound to nonhydrolytic proteins, where for

52 morphology can be tuned by means of solvent solution and by strand substitution with DNA and unmodif

53 al components compared to those collected in solution and crucially, the crystalline samples display

54 iate-curved" (100-300 nm diameter) in pH 7.5 solution and formed some bundles in pH 6.5 solution.

55 amyloidogenic system, beta2-microglobulin in solution and in microcrystalline state.

56 ely 56.4 W m(-2) with 2.0 M NaCl as the draw solution and river water (0.017 M) as the feed water at

57 of single-crystal X-ray diffraction studies, solution and solid-state magnetic studies, and (57)Fe Mo

58 rization of the LnPOM species present in the solution and the detailed work for its final formulation

59 tion is predicted to be endoergic in aqueous solution and the DNA duplexes but slightly exoergic in t

60 ous functional groups to be characterized in solution and the solid state, several of which are too w

61 hese optical properties are observed in MeCN solution and the solid state.

62 Here we present solution and X-ray crystallographic studies that indicat

63 ose on the refractive index in model aqueous solutions and in dry white wines.

64 ower densities generated from synthetic NaCl solutions and the crystal structures and morphologies of

65 g forces for single-chain collapse in dilute solutions and the driving forces for phase separation in

66 washed for 30 min in one of the five washing solutions and the results compared.

67 charge storage mechanism (two-phase vs solid-solution) and localization of charge give rise to additi

68 ognizing the problem, generating appropriate solutions, and the social transmission of innovations.

69 esented characteristics of the recent design solutions, application possibilities, critical evaluatio

70 ndings open a new door for exploring aqueous-solution approaches of more metal-oxide semiconductors w

71 summarise the evidence and present possible solution approaches.

72 s of amino acids in organic media or aqueous solution are discussed.

73 om DMSO reacting with MA(+) in the precursor solution are responsible for the formation of gap states

74 Nature-based solutions are becoming an increasingly important compone

75 Therefore, sustainable solutions are in high demand.

76 ramework termed NECom for which any feasible solutions are Nash equilibria of microbial community met

77 ivity of these enzymes, however, alternative solutions are required to avoid the side-effects of usin

78 ds according to their relative abundances in solution, as determined by hydrophilic interaction-ultra

79 ked binding of the Tat-ARM peptide to TAR in solution assays, whereas its linear counterpart did not.

80 remities were perfused with oxygenated Steen solution at a constant pressure of 30 mm Hg and 10 degre

81 Biofilms were treated with ozonized saline solution at different concentrations (25, 50, and 80 mug

82 ater/isopropanol (1:1 v/v) and 0.2 m KHCO(3) solution at room temperature.

83 as an additional redox probe in the aqueous solution (at room temperature and without addition of su

84 solution (6.50-40.10 mg/kg) or had the same solution available ad libitum (39.25-266.00 mg/kg).

85 further development, and possible technical solutions available through molecular allergology.

86 Here we report a solution-based lithography-assisted epitaxial-growth-and

87 A solution-based reaction route is proposed, showing that

88 ion pathway forming tetrameric DEC-205 using solution-based techniques and ultimately solved the 4.9

89 In comparison to in-solution-based TrEnDi, iTrEnDi demonstrated a modest dec

90 ultraviolet or visible radiation in toluene solutions but is resistant to thermally induced dissocia

91 )] is not long-term stable in a THF/c-hexane solution, but abstracts an H atom with formation of the

92 nism identical to that of bioluminescence in solution, but has higher activation energy due to being

93 sical interactions of ScDmc1 with ScRad51 in solution, but not with EcRecA.

94 Digital health technologies may offer a solution by addressing transplant-specific barriers: spe

95 Novel clinical trial designs offer potential solutions by attempting to obtain clinically meaningful

96 e case, the agent can still exploit the task solutions by using them to interact with and learn about

97 Relative to the dosing solution, C6 and C7 perfluoroalkyl sulfonates (PFSAs) we

98 In practice though, identification of these solutions can be very challenging and as such, only a sm

99 ) ignore the reported efficient Ni/MgO solid-solution catalysts and overstate the novelty and importa

100 rotein carried a sufficiently large positive solution charge.

101 Host-guest solution chemistry with a wide range of organic hosts is

102 cal reactions without consideration of their solution complexity.

103 Solution compositions are identified for which tenfold w

104 h become heavily decorated under the current solution conditions (14 uM Abeta42, 20 mM sodium phospha

105 Because HDX is strongly dependent on solution conditions, even small variations in temperatur

106 dissolved in nitric acid to generate an acid solution containing 23.5 g/L Fe, 4.45 g/L Zn and 2.81 g/

107 It is not known if use of colloid solutions containing hydroxyethyl starch (HES) to correc

108 Acidic solutions containing U(VI), Sr(II), Eu(III), and Ce(III)

109 first, isotope exchange between surface and solution could be observed at pH 6.0 but not at pH 7.0 a

110 In contrast, ApoE in solution demonstrated an isoform-dependent inhibition of

111 energy as high as 63 kJ mol(-1) in DMSO-d(6) solution (DFT prediction for a model compound in the vac

112 aragine and aspartic acid residues during in-solution digestions of proteomes extracted from Escheric

113 that is no escape of the substrate into bulk solution during experiments, and a way to perturb protei

114 s a strategy to avoid adding H(2)O(2) in the solution during the detection of phenolic compounds.

115 ing event costs and selecting representative solutions, enabling users to make more robust inferences

116 The proposed solution evaluates the reduced time complexity equivalen

117 However, most proposed solutions evolve towards a target geometry without consi

118 No clear solution exists, and this should be viewed as a critical

119 s of sedentary behavior; second, we describe solutions-focused research from initiatives in workplace

120 egetables were soaked in 10 mg/L of carbaryl solution for 30 min and then washed for 30 min in one of

121 apted pollen season definition as individual solution for each pollen and geographical area.

122 r, bayNorm provides an efficient, integrated solution for global scaling normalization, imputation an

123 Privacy-preserving mechanisms can be a solution for granting wider access to such data while pr

124 Root resection therapy remains a treatment solution for molars with furcation defects.

125 protein drugs is considered a life-changing solution for patients who require regular needle injecti

126 Targeted NGS on MinION is a promising DST solution for rapidly providing clinically relevant data

127 s selenium in rice grains, providing a novel solution for selenium biofortification.

128 ol out of the larger multiverse of published solutions for a given research study set-up.

129 romising avenue for development of BCI-based solutions for fast communication of emotions.

130 The current challenges and possible solutions for improving these novel catalytic materials

131 oped the algorithm STing to provide turn-key solutions for molecular typing and gene detection direct

132 Artificial intelligence offers promising solutions for property prediction, compound design, and

133 esponse time for such structures and provide solutions for specific target applications.

134 emphasise the importance of using acidified solutions for the extraction of corn-based anthocyanins.

135 Patients have increasingly sought natural solutions for their IBS symptoms.

136 pping and vacuum impregnation in lemon juice solution), freezing and frozen storage (FS) on single an

137 g and appeared to provide a globally optimum solution from a random start in the initial guess of mod

138 esign of custom shapes that self-assemble in solution from sets of DNA molecules.

139 ation of tyrosine residues that project into solution from the N or C-termini of peptide and protein

140 Utilizing this filtration method, 75 solutions from 0 to 150 ppb lead gave a 91% sensitivity,

141 The pH shift was measured upon cooling the solutions from 20 to -25 degrees C.

142 Electrospray ionization applied to solutions generated under native or near-native conditio

143 Rehydration in an alkaline solution has been shown to improve the rehydration behav

144 ed, and its photoisomerization in an aqueous solution has been studied depending on anion coordinatio

145 Prior to identifying solutions, however, it is important to first define the

146 that the direct-space strategy for structure solution, implemented using a genetic algorithm (GA), is

147 emiconductors interfaced with an electrolyte solution in a closed sandwich architecture in order to s

148 PEG-20k is an effective non-sanguineous, LVR solution in acute models of HS through mechanisms target

149 aggregation by a factor of 1.3 +/- 0.4 in AS solution in the first 60 min of reaction time.

150 at SurA samples an array of conformations in solution in which P2 primarily lies closer to the core/P

151 Analysis of cortisol solutions in a complex matrix (bovine serum albumin in p

152 ismanagement of byproducts and to suboptimal solutions in terms of regional GHG emissions.

153 ce as effective as PVI (alcoholic or aqueous solutions) in preventing infection after clean surgery i

154 previously estimated in acellular hemoglobin solutions, indicating the presence of diffusional barrie

155 dying nanobubbles generated at the electrode/solution interface.

156 f 2,4,6-trinitro-benzenesulfonic-acid (TNBS) solution into the ileal wall.

157 dissociation of the overhangs via changes in solution ionic conditions to drive structural transition

158 However, this solution is based on assumptions (e.g., the weak ergodic

159 ondary structure based methods, the proposed solution is more robust to sequence boundary noise and r

160 coils, with analysis performed each time the solution is passed between the two.

161 (urban) samples indicate that the Na(2)CO(3) solution is significantly less selective for HNO(3(g)) c

162 A potential solution is to use closed-loop control to record theta i

163 y to estimate ion dissociation in ILs and IL solutions is by comparing the molar conductivity determi

164 Existing software solutions lack the raw performance and statistical groun

165 eat this mechanism and activate T cells with solution ligands by cross-linking pMHC or using multival

166 here free AEBSA added to the control loading solution limits CAII capture.

167 available T4L structures, reveal that T4L in solution mainly adopts the known open and closed states

168 macroscopic electrical conductivity of solid solution MXenes can be controllably varied over 3 orders

169 in lipid bilayers and detergent micelles by solution NMR relaxation techniques.

170 port the structure of BTNL2 as determined by solution NMR spectroscopy and also the picosecond-nanose

171 sequently converting them into CoMP(x) solid-solution NRs through thermal post-treatment are essentia

172 Here, solution nuclear magnetic resonance (NMR), neutron refle

173 d plasma proteins have a measured density in solution of 1.03 +/- 0.02 g/cm(3), which is much lower t

174 aqueous core, followed by dialysis against a solution of 300 mOsm L(-1) produces a CEST peak at 3.5 p

175 was exposed for different binding times to a solution of a zinc tetraphenylporphyrin (ZnTPP) derivati

176 ell spectra, SERS data were collected from a solution of bovine serum albumin (BSA) digested by tryps

177 The solution of the full-length M1 structure, the identifica

178 ptide-MHC-II interaction data are key to the solution of this problem, a solution that also will supp

179 rther probed by photolyzing benzene/pyridine solutions of 4a under H(2) and D(2) atmospheres (150 psi

180 on in the presence and absence of saturating solutions of CO (160 mum) and nitric oxide (100 mum).

181 Additional stability tests showed that solutions of curcumin can be stable up to five months wh

182 The aqueous solutions of curcumin/HP-beta-CyD and curcumin/HP-gamma-

183 ive electrodes immersed into separate sample solutions of equal composition.

184 ed by trypsin as an enzymatic model and from solutions of intact BSA and trypsin.

185 f S-nitrosothiols or beta- or alpha-NADPH to solutions of NBT did not elicit diformazan, (3) addition

186 aldehyde, (4) addition of S-nitrosothiols to solutions of NBT plus beta- or alpha-NADP did not produc

187 formazan, (3) addition of S-nitrosothiols to solutions of NBT plus beta- or alpha-NADPH elicited rapi

188 The analytical solutions of the model determine the equilibrium states

189 The presence of gold as nanoparticles in the solutions of these fluid inclusions was determined by op

190 Solutions of variable NaNO(3), Ca(NO(3))(2), and humic a

191 0 (GWG1%) and 50 (GWG5%) g/L as the steeping solution on the chemical, nutritional, and microbial qua

192 incubation in a saline (PBS), UW, or HypoRP solution on the structure, cell viability, metabolism, a

193 standards are not added promptly into SVOCs solutions on preparation.

194 impregnation from strongly oxidizing aqueous solutions or pH-controlled deposition often leads to low

195 In aerated solutions, paraquat signal was not distinguished due to

196 Here, we investigate the influence of solution pH, the presence of salt additives, and catalys

197 the calibration curve of ketamine at buffer solution (pH 12) exhibits a sensitivity of 8.2 muA muM(-

198 thesis usually takes place by time-consuming solution phase chemistry.

199 rt the development of a high throughput, all-solution phase, and isothermal detection system for Afri

200 lead to large concentration gradients in the solution-phase and subsequently to crippling overpotenti

201 This paper describes the synthesis, solution-phase biophysical studies, and X-ray crystallog

202 Solution-phase self-assembly of anisotropic nanoparticle

203 Ceria and its solid solutions play a vital role in several industrial proces

204 Solution-processable highly conductive polymers are of g

205 dry-processed solid-state TTA comparable to solution-processed solid-state systems.

206 V), which are achieved by combining a simple solution processing with modulation of surface compositi

207 ons during the active degradation process in solution remain scarce.

208 The model solutions resemble modern nutrient distributions only ov

209 s as an octamer complex in 10 mM and 100 muM solutions, respectively.

210 e channels of the crystals by diffusion from solution, resulting in fluorescent crystals.

211 te the ensemble of Bvht RNA conformations in solution, revealing that Bvht lncRNA has a well-defined,

212 he time scale of laboratory experiments in a solution saturated with respect to amorphous silica at p

213 urse experiments with excess formaldehyde in solution show formation of another product with an addit

214 Numerical solutions show that such scale separation remains in the

215 our own--in the field, and indicate that in-solution single-particle tracking and ABEL trap are more

216 i-Brownian electrokinetic (ABEL) trap and in-solution single-particle tracking, we show that catalysi

217 ls by targeting under-sampled regions of the solution space.

218 current cancer phylogeny methods infer large solution spaces of plausible evolutionary histories from

219 ed using a high-density sodium polytungstate solution (SPT) and microplastic particles were identifie

220 In contrast to the solution state, 6E10 (with E188K, A142V and H125Y mutati

221 Solution-state NMR spectroscopy has emerged as a leading

222 R shifts with the aid of previously assigned solution-state shifts for the RRM2,3 isolated domains an

223 Herein, we report the apo, solution-state structure of Hop TPR2A which enables this

224 ce and SAXS data provided constraints on the solution structure of the aptamer and enable computation

225 We further report ComGC solution structures from two naturally competent human p

226 copy and X-ray crystallography together with solution studies revealed that PfA-M17 and Pv-M17 bind m

227 cognition, and deployment of novel technical solutions such as smartphone applications, telemedicine,

228 identification of the full set of efficient solutions (supported and unsupported) to the multiobject

229 Below a lower critical solution temperature (LCST), they are highly soluble.

230 As the solution temperature is increased, the abundance of each

231 n X-100 surfactant or by the increase of the solution temperature) is a key parameter for the liposom

232 ric structures that differ in lower critical solution temperature, we were able to develop hydrogels

233 a are key to the solution of this problem, a solution that also will support the improvement of bioin

234 A, we show that bimolecular HAA reactions in solution that are electron transfer-driven and highly ex

235 enomenon led to generate a blue color of the solution that enabled visualizing and quantitative measu

236 is compelling demand for a general catalytic solution that enables precise control of the C=C bond mi

237 plex 2(+) presents a dynamic behavior in the solution that involves the synchronous coordination and

238 noncovalent interaction strategy presents a solution that may be generally applicable in controlling

239 r more when the concentration of the sucrose solution that the flower provides is higher.

240 protein amide I and amide II band in aqueous solutions that achieves a limit of detection as low as 0

241 -cationic Cs(2)Bi(1-x)In(x)AgCl(6) HDP solid solutions that span the indirect to direct band-gap modi

242 At pH 3 in HClO(4) solution, the anodic peak current of VAN obtained with t

243 When dispersed in aqueous solution, the designed CPT prodrug spontaneously assembl

244 In solution, the N-terminal fragment of ALIX-PRD is dynamic

245 In solution, the protein is capable of accessing a high-val

246 e note that, for undoped ceria and its solid solutions, the relationship between short range order an

247 dependent upon their chemical speciation in solution, their interactions with bentonite, and their s

248 In solution, this [Cu(II)]-C=CAr species cleanly transforms

249 stability which allows the protein charge in solution to be controlled via pH adjustment without chan

250 We present a simple, remote sulfonation solution to BODIPY photocages that imparts water solubil

251 or Transplant Referral Model as a compelling solution to improve equity in access to kidney transplan

252 riate microstructure geometry is a promising solution to macroscale problems.

253 e TCGA Mutect2 caller were used to develop a solution to merge SNV to MNV.

254 Vaccines are the most promising solution to mitigate new viral strains.

255 The method provides a tractable solution to reduce the time complexity and physical laye

256 biomolecular motors for short) are nature's solution to the efficient conversion of chemical energy

257 Our models produce a globally optimal solution to the NP-hard problem of minimizing the total

258 ion of the sub-problem solutions to form the solution to the original LIP.

259 hat targeting cooperative traits is a viable solution to the problem of antimicrobial resistance.

260 before aerobic respiration evolved, offer a solution to the stress ROS exert on molecular targets at

261 We review a potential solution to these limitations: the use of new "precision

262 We provide a solution to this problem by deriving formulae for the em

263 A potential solution to this problem would be for an animal to learn

264 hat carbon paint protective layers provide a solution to three well-known challenges in molecular jun

265 nols from apple juice was conducted in model solution to understand the mechanisms by which they are

266 sting by research staff represent acceptable solutions to expand screening, and (iv) whether testing

267 complexity and the fusion of the sub-problem solutions to form the solution to the original LIP.

268 Therefore, alternative solutions to increase the quantity and quality of the or

269 ally available mass spectrometers from salty solutions to mimic cellular environments.

270 for this, as a generic platform of technical solutions to tackle complex medical challenges.

271 efore and after percolation, as predicted by solutions to the master kinetic equation.

272 However, solutions to the scientific challenges of developing ant

273 Our results suggest multiple solutions to the thermodynamic conditions of cooperativi

274 pacts of pH and CaCl(2) were examined on the solution-to-gel transition of mucin, the primary structu

275 ating lithium continuously by means of solid-solution transformation because they have few kinetic ba

276 d on biochemical extraction and microfluidic solutions typically require high concentrations and/or c

277 -azo-bis isobutyro nitrile (AIBN) in toluene solution under argon at 80 degrees C.

278 loperamide, and papaverine) in physiological solutions, urine, and dried blood spot (DBS) samples.

279 We first purify the bacterial DNA into a PCR solution using our DM-based sample preparation.

280 y the current knowledge gaps, test potential solutions using human pharmacokinetics informed through

281 d is not affected by the type of anion or by solution versus the surface chemistry.

282 to increase the concentration of analytes in solution via reduction of the sample volume under well-d

283 In solution, we find that this tertiary structure is not st

284 hyper-Rayleigh scattering (HRS) responses in solution were accordingly assessed, using either linearl

285 hanism takes over around room temperature in solution when the aggregates dissolve or when the compou

286 et annihilation at lower temperatures in THF solution, where aggregates form upon cooling, the TADF m

287 far struggled to provide a fast and reliable solution, whereas sensory analysis by trained panelists

288 ion between HCPs and therapeutic antibody in solution, which precludes the effective identification o

289 motivated the emergence of transdisciplinary solutions, which include methodologies that utilize the

290 ctivity has proven difficult to reproduce in solution with man-made systems.

291 2.2 CFU/ml from experimental data in buffer solution with no sample preparation.

292 atient, sequenced using the 10X Genomics CNV solution with sequencing coverage ~0.03x, SBMClone recov

293 at nanomole-scale amounts as DMSO-d(6) stock solutions with a known structure and concentration for i

294 ibers containing the biomass were exposed to solutions with different pH values (pH 1-10), and color

295 ne, the color decay of MB in a series of IPA solutions with different scavenging capacity, a calibrat

296 sity (50 kW m(-2)) to desalinate hypersaline solutions with exceptionally high water flux (and throug

297 that can quantify saponin content in aqueous solutions with greater accuracy.

298 rience-and compare supervised classification solutions with those from unsupervised clustering in whi

299 the PQDs from nonpolar media to an array of solutions with varying polarities and properties.

300 ence of parasite resistance, and so a better solution would be the development of an effective subuni