ライフサイエンスコーパス: solution

1 rounding medium (e.g., to detect analytes in solution).

2 dified by introducing SrCl2 in the precursor solution.

3 D2 dimer in an autoinhibited conformation in solution.

4 nt to dilution in the absence of Pol III* in solution.

5 ested using 50mmolL(-1)NH4OH as an absorbing solution.

6 se of human mAbs to stabilize homo-dimers in solution.

7 coefficient of 1.90 x 10(5) m(-1) cm(-1) in solution.

8 efficiently capture ERalpha from the sample solution.

9 late with cyclic voltammetry data in aqueous solution.

10 rences of chemically modified nucleosides in solution.

11 ntal Omega values to elucidate structures in solution.

12 also forms extended secondary structures in solution.

13 ity and found that it exists as a monomer in solution.

14 ell as their structural stability in aqueous solution.

15 ax conformer in the gas phase and of Pheq in solution.

16 ynthesis and exchanges with free copies from solution.

17 se and accurate when applied to the standard solution.

18 ormed at the wollastonite surface in aqueous solution.

19 DNA-CAs exhibited white emission in aqueous solution.

20 lowing prolonged cold storage compared to UW solution.

21 ntration and 2.7x10(-15)g in mass from 120nL solution.

22 o punch the pins and contain the measurement solution.

23 ptible to invasion by competitor proteins in solution.

24 hibited different conformational dynamics in solution.

25 of target molecules with that of a reference solution.

26 muir isotherms within error of those seen in solution.

27 -a-disc (LOAD) to provide a sample-to-answer solution.

28 2.6 times slower than BPA and accumulates in solution.

29 solution but also on the pH of the previous solution.

30 rt that UL8 alone forms protein filaments in solution.

31 t, tunable transition temperature in aqueous solution.

32 erologous materials into the crystallization solution.

33 r CO2 reduction over H2 evolution in aqueous solution.

34 until dissolved by an ultrapure electrolyte solution.

35 ld-type allergen does not provide a complete solution.

36 cs in bulk water and in concentrated protein solutions.

37 following their first contact with 0.1 M KCl solutions.

38 faces of transient polymer solids and liquid solutions.

39 for furans during the storage of irradiated solutions.

40 model was validated using glycerol reference solutions.

41 ced hydrogen bonding and/or icebergs in such solutions.

42 similar properties with different molecular solutions.

43 small volumes of tetrachloroauric (III) acid solutions.

44 ore efficient when using sodium hypochlorite solutions.

45 e liquid membranes (FLMs) and two extraction solutions.

46 e, the authors recommend a set of attainable solutions.

47 -4)molkg(-1) thiamine HCl and pyridoxine HCl solutions.

48 de was present in samples fixed with Bouin's solution (18/18) than in buffered formalin (0/18), indic

49 e and features a hydride (1)H NMR signal (in solution 35.61 ppm; in the solid state 31.1 ppm) at the

50 ed daily intradermal injection of gentamicin solution (8 mg) or placebo into 2 intact skin sites for

51 By mixing in solution a triplet photosensitizer (PS) with the photoCO

52 stemic safety of netarsudil 0.02% ophthalmic solution, a rho-kinase inhibitor and norepinephrine tran

53 Interestingly, the solution absorption measurements do not accurately appro

54 during consumption of the devalued saccharin solution after CTA induction.

55 xes (Z = BF4 or in one case PF6) in (CD3)2CO solution: again an excellent correlation was found betwe

56 The use of a nonaqueous matrix solution allowed experimental error to be minimized to w

57 recipient Lewis rat survival compared to UW solution alone.

58 e a nanopipette probe containing electrolyte solution and a second electrode placed in a bulk electro

59 phase of actin, demixed from the surrounding solution and dominated by interfacial tension.

60 acin, meropenem, and piperacillin in aqueous solution and human urine.

61 quired in order to explain their behavior in solution and in biological environment.

62 ect by binding to oligomeric species both in solution and in gas phase.

63 X-ray scattering studies of sTie2 dimers in solution and modeling based on crystal structures, we su

64 d with the recent discovery of several solid solution and ordered phases involving at least two M n+1

65 is phenomenon dramatically hampers structure solution and refinement, and has a strong impact on the

66 optimized: nature and concentration of acid solution and sonication time.

67 e 'Open' form of the protein predominates in solution and we discuss implications of this with regard

68 es in real time in different pH-neutral NaCl solutions and applied surface potentials of nickel (vs.

69 hemes in myoglobin (MB) and hemoglobin (HB) solutions and in porphyrin compounds at 20-260 K.

70 In addition to the fact that aqueous solutions and microporous silica materials are environme

71 ivering gamma-amino butyric acid to a target solution, and demonstrates low-voltage operation, high d

72 unique arena in which to study electrons in solution, and to tune the electron density from the extr

73 Different probes were examined in bulk solutions, and dihydrorhodamine 123 (DHRh 123) was selec

74 intact even when immersed in saturated NaOH solution ( approximately 20 m), an exceptionally large r

75 id/sodium oleate mixtures in sodium chloride solution are analysed by simultaneous synchrotron small-

76 n mechanisms for alpha-keto acids in aqueous solution are robust and generalizable across alkyl chain

77 ant to understand plant biology, but current solutions are costly, not versatile or are difficult to

78 n tetrahydrofuran (THF)/hexane or THF/Me2NEt solutions are described.

79 O2 collection in a 20% triethanolamine (TEA) solution as nitrite and nitrate for delta(15)N analysis

80 nsor calibrations were performed in standard solutions as well as simulated seawater samples to demon

81 obin diffusion in the red blood cells and in solutions at similar concentration are the same.

82 come possible to go beyond infinity with the solution becoming again well behaved and the computation

83 Further, by comparing solution binding data and crystal structure, we gained i

84 n depends not only on the pH of the immersed solution but also on the pH of the previous solution.

85 PG), biogas, and electric) are heralded as a solution, but few studies have demonstrated their enviro

86 d measure the amount of Fe(3+) in the sample solution by monitoring changes in absorption from 540 to

87 polychloro-1,3-butadienes (CBDs) in aqueous solution by ozone, UV-C(254 nm) photolysis, and the corr

88 permits the oxidative removal of Mn(II) from solution by reaction with the reactive oxidant species p

89 I sketch a solution by rejecting the distinction: Unlike most anima

90 direct observation of enzymatic activity in solution by the sensor.

91 oximal or distal geometry, were activated in solution by ultrasound-generated elongational forces.

92 We show that hemoglobin diffusion in solution can be described as Brownian motion up to physi

93 nanoparticles (NPs) and proteins in aqueous solutions can be directed by modifying the salt concentr

94 ed layers of WS2 mixed with Nafion solution, solution cast and doped with Li(+) was studied as electr

95 nt-chemical-potential conditions like dilute solutions changing the composition of the molecule at [F

96 ir aggregation kinetics in different aqueous solution chemistries.

97 n data in a framework that incorporates both solution chemistry and geometric constraints on the calc

98 Solution circular dichroism studies show that compound 1

99 eric repeats depending on DNA length and ion solution condition.

100 Here, we examine how solution conditions affect the size and shape of SLA and

101 anism can be quite slow and require specific solution conditions.

102 The results showcase the ability to direct solution conformation of polymers through monomer design

103 tion procedure was carried out in an aqueous solution containing 1,3-di(3-N-pyrrolpropyl)imidazolium

104 The extracted solution containing DOC was loaded into the injection va

105 Electrospray of a solution containing hexose and a lithium salt generates

106 n contrast, the pomegranate supplement, or a solution containing the malic and citric acid components

107 Solutions containing poultry litter-derived DOM generate

108 Crystal structures and accompanying solution data confirmed that AroY utilizes the recently

109 NA to SWCNTs through direct protonation from solution, decreasing the driving force for this phase tr

110 reduces reactant consumption and facilitates solution delivery close to the SiPM to increase the dete

111 ex nucleic acids in mixed ds/ss nucleic acid solutions, demonstrating significant advantages over cur

112 However, the optimal solutions depend on both the level of noise and how it i

113 High sulfate concentrations in the solutions did not show a competitive effect on arsenate

114 t pH values, due to using a buffered oxidant solution, did not support increased PFAA removal via soi

115 is complex at ambient temperature in aqueous solution do not provide evidence of any long-lived elect

116 ns facilitating the fast attainment of solid-solution equilibria (e.g., in stagnant waters), Fe-rich

117 eturn inaccurate solutions or report that no solution exists.

118 ssociated with better clinical outcomes than solution-focused brief therapy and would be cost-effecti

119 Glass-ceramic disks were immersed in each pH solution for 3 d, then cycled for 27 d.

120 ence control technique will provide a unique solution for a low-speckle, full-field, and coherent ima

121 for a user-friendly, extensible, open-source solution for digital pathology and whole slide image ana

122 eleases RNA-templated ligation products into solution for downstream analysis.

123 the Cu(I) availability in an optimized assay solution for either environment, demonstrating a direct

124 properties all point to NESMD as a promising solution for household- or community-scale desalination.

125 ethod provides a cost-effective and scalable solution for rapid recovery of large STR and SNP dataset

126 tric nanogenerator is considered a potential solution for self-powered sensor networks and large-scal

127 er next-generation sequencing (NGS) can be a solution for the authentication of mixed products.

128 ithography (R2R UV-NIL) technique provides a solution for the continuous fabrication of flexible SERS

129 me-resolved mechanism, and kinetic equations solution for the ensemble long-time propagation (based o

130 le, which provide a computationally explicit solution for the recognition of words in continuous spee

131 g this microbial approach offers a potential solution for valorizing lignin into valuable chemicals f

132 rahedral interstitial sites, with analytical solutions for basin exiting time and probability.

133 hem in a soluble and stable state in aqueous solutions for downstream characterization.

134 provides a constraint for refining numerical solutions for insolation, which will enable a more preci

135 es and geometries, which can offer practical solutions for large-scale tissue measurements.

136 genous approaches promises to provide better solutions for site-specific delivery and could further f

137 tentials of nickel (vs. Ag|AgCl electrode in solution) for the mica-nickel confined interface of tota

138 rates clearly that pre-associations exist in solution, for which binding constants and thermodynamic

139 otective layer, which shields the contacting solution from the metal, a protein resistant layer, whic

140 lexes of phenacylDO3A derivatives in aqueous solution, giving rise to changes in the luminescence and

141 size, composition, etc., associated with the solution-growth of MOCP thin films with targeted composi

142 ts treated with University of Wisconsin (UW) solution + H2 S (150 muM NaSH) during prolonged (24-h) c

143 erified that individual BSA monomers in bulk solution had increasingly lower conformational stability

144 ally positioned for reaction with halides in solution, halogen bonding was detected only in cases whe

145 n the dengue virus polymerase NS5 and SLA in solution has not been performed.

146 Although Hsp90 conformational changes in solution have been well-studied, regulation of these com

147 c, technological, or scientific - and simple solutions, here defined as solutions that are inexpensiv

148 Nanoprobes are commonly measured in solution; however, this approach has several disadvantag

149 that a low concentration (10 mg/L) Na humate solution in synthetic water significantly improved the m

150 ne contains only the azimuthally oscillating solution in the configuration of the twin-cell flow stat

151 Results showed that Tc was removed from solution in the form of poorly soluble hydrous Tc(IV)-ox

152 hms to arrive at optimal or close to optimal solutions in significantly lower number of steps as comp

153 acting complex refractive indices of aqueous solutions in the mid-infrared region using conventional

154 eries of the challenges and the proposals of solutions in this CELLS (Cells in ExperimentaL Life Scie

155 rystals nucleate from supersaturated aqueous solutions in three distinct steps: spinodal decompositio

156 Possible solutions including micro-RNA switch technologies that p

157 strong electrostatic effect at the electrode/solution interface.

158 ncorporation of hypericin (Hyp) from aqueous solutions into giant unilamellar vesicle (GUV) membranes

159 otein-ssNA crystal structures, while forcing solution investigations to report ensemble averages.

160 NO2 and subsequent NO2 collection in the TEA solution is >98% under a variety of controlled condition

161 Rapid, low-cost and portable solution is in highly demand for point of care test.

162 red formalin (0/18), indicating that Bouin's solution is more appropriate for detecting bacteria adhe

163 oluble in the melt at high pressures and the solution is nearly ideal.

164 supramolecular self-assembly in water-based solutions is an important problem of interdisciplinary c

165 cursor to functionalized cyclohexadienes: In solution, it selectively protonates at the ortho positio

166 backscattering interferometry (BSI), a free-solution label-free method with high sensitivity, to qua

167 Increasing concentration of the dyes in a solution led to the increase in absorption band intensit

168 ic media or immersing MoS2 into certain acid solutions like TFSI.

169 d microchips, electrophoretic protocols, and solution matrixes were kept constant, allowing the propo

170 In contrast, redundant solutions may explain positive feedback, perhaps indicat

171 In this work, a one-pot solution method for direct synthesis of interconnected u

172 raightforward manner without use of previous solution NMR data.

173 phatidylcholine nanoparticles and studied by solution NMR spectroscopy.

174 Addition of Tb(3+) salts to a solution of a (YbLD) complex in D2O resulted in the form

175 us medium containing the CNCs into a toluene solution of amine end-functionalized polystyrene are com

176 Upon soaking in a DMF solution of Cp2Co, the compound undergoes a single-cryst

177 ater mixture is best described as an aqueous solution of DES components.

178 A hydrotropic solution of highly concentrated sodium tosylate (NaOTs)

179 ce dynamics calculations combined with exact solution of linearized phonon Boltzmann equation.

180 thesize a polymer vesicle from a homogeneous solution of monomeric units.

181 cles, AgBr, KBr suspended in tetrahydrofuran solution of PVC and DOS and deposited on Ag substrate, o

182 Within our approach the solution of the computation is encoded in the ground sta

183 Numerical solution of the diffusion equation, as well as ab initio

184 ng electron microscopy revealed that ethanol solutions of 3 form floret-shaped constructs, while fibr

185 solvents: either deionized water or aqueous solutions of cyclodextrins.

186 fects of post-column addition of isopropanol solutions of formaldehyde, 2,2-dimethylpropanal, ethyl m

187 manganese cation in LiPF6-based electrolyte solutions of Li-ion batteries with lithium manganate spi

188 Using solutions of SELP 815K (which contains 6 repeats of bloc

189 Slow diffusion of Et2O into CH3CN solutions of the salts afforded X-ray quality crystals o

190 states are a limit cycle and a quasiperiodic solution on a two-torus, respectively.

191 pared to controls administered with the drug solution only.

192 Rab6a-GTP, either in solution or bound to artificial liposomes, released BICD

193 and balanced crystalloids (lactated Ringer's solution or Plasma-Lyte A).

194 grees C for 4 h, either dissolved in aqueous solution or preadsorbed onto activated carbon (AC).

195 njugate shows weak luminescence when free in solution or with well matched DNA but exhibits a signifi

196 uble-precision solvers may return inaccurate solutions or report that no solution exists.

197 (-1) thiamine HCl(aq) and pyridoxine HCl(aq) solutions over temperature range (288.15-318.15)K at pre

198 d anionic Fe(CN)6(4-)) in a phosphate buffer solution (PBS) containing AFB1, the magnitude of anodic

199 this gradient is a function of extracellular solution pH, the pH-dependence on Mg isotope fractionati

200 r seeding microalgae in the TAPP medium in a solution phase at 15 degrees C, the temperature is incre

201 Photophysical investigations in the solution phase provide insight into the correlation of e

202 cases their structure is not a single solid solution phase, and that the rules may not accurately di

203 e work focuses on implementing complementary solution-phase footprinting approaches that differ in ti

204 Herein, we report the simple solution-phase generation of highly reactive phosphabore

205 Here, we present the solution-phase synthesis, extensive characterization, an

206 loys (HEAs), with predominantly single solid solution phases are a current area of focus in alloy dev

207 ectrostatic interactions-screened by ions in solution-play an important role in governing their abili

208 A scalable, low-temperature solution process is used to synthesize precursor materia

209 ate via a low temperature (</=100 degrees C) solution process.

210 h interest due to their ease of handling and solution processability.

211 effect transistor (FET) biosensor utilizing solution-processed graphene oxide nanoribbon (GONR) for

212 ate for PVSCs fabricated by room-temperature solution-processed techniques.

213 Highlighted topics include how solution-processing techniques can control the distribut

214 Metal-amine solutions provide a unique arena in which to study elect

215 igher surface energy and quickly dissolve in solution, providing additional NC sources for the ripeni

216 thm is able to generate approximate oligomer solutions quickly as initial inputs for further refineme

217 eriments, revealed that ObgE is a monomer in solution, regardless of the bound nucleotide.

218 e of inter- and intramolecular dispersion in solution remains yet to be fully understood because expe

219 d in their scope of utilization; the optimal solution requires a method that may be optimized for ava

220 crog/L and 11microg/L in must and wine model solution, respectively.

221 determine the location by controlling local solution saturation with respect to secondary carbonates

222 degrees C histidine-tryptophan-ketoglutarate solution (SCS), followed by kidney autotransplantation.

223 Charge transport is investigated for solution-sheared films in field-effect transistors demon

224 d by nanometer-scale real-time microscopy in solution, shows a transition from an early stage of unif

225 Comparatively, the TPC of the extract solution significantly decreased from 100% down to 20.8%

226 y exfoliated layers of WS2 mixed with Nafion solution, solution cast and doped with Li(+) was studied

227 ell-characterized ubiquitin A state, and two solution species that are differentiated based on a cis-

228 After a short period of soaking in a KBr solution, stable and reproducible formal potentials of -

229 he combination of our crystal structure with solution state analysis of recombinant protein and elect

230 article describes X-ray crystallographic and solution-state NMR studies of peptides derived from resi

231 By tuning the solution-state structure, films with high crystallinity

232 The solution structure and dynamic ensembles of the duplexes

233 Here, we probe the solution structure and dynamics of active and inactive T

234 The results provide insights into polyQ solution structure and fibril formation while also sugge

235 To reveal its solution structure that underlies such a dynamic and com

236 The solution structures of the phosphorylated and unphosphor

237 Solution study demonstrates clearly that pre-association

238 Thus, a subsequent LP solution subject to this reaction deletion constraint be

239 t ultralow lattice thermal conductivities of solution-synthesized, single-crystalline all-inorganic h

240 les when passing to above its lower critical solution temperature (LCST).

241 Ethoscopes provide a software and hardware solution that is reproducible and easily scalable.

242 ow that the present unified framework yields solutions that are in better agreement with the benchmar

243 ific - and simple solutions, here defined as solutions that are inexpensive, reliable, predictable, h

244 d by glass capillary tubes, in recirculating solutions that are supersaturated with calcite (Omegacal

245 Complementary solutions that leverage expertise of academia and indust

246 tive plugs of immiscible aqueous and organic solutions; the aqueous sample forms the central phase an

247 spholipid membranes are dispersed in aqueous solutions, they tend to self-assemble into vesicles of v

248 roduct with a single passage of the reactant solution through the cell.

249 H2O per CaCO3 unit) forms in supersaturated solutions through the association of ions and ion pairs

250 s the aggregation of these modules in DCM-d2 solution, through halogen bonding, forming oligomeric as

251 sity when switching from a Ca(2+)-containing solution to a divalent-free Na(+) one, and fast Ca(2+)-d

252 ility index provides an immediate and simple solution to an overt problem.

253 thms have arisen that report a 'good enough' solution to biological questions.

254 ment of moral boundaries offers an efficient solution to cooperation problems and promotes prosocial

255 of alginate fouling, suggesting an ultimate solution to eliminating the irreversible membrane foulin

256 nown as microgrids, have been developed as a solution to energy access problems.

257 t low temperature with H2O in methanol/ether solution to form trans-[Pd(IPr)2(OH)(OOH)].

258 thod can provide an effective and economical solution to microbiology techniques that rely on enrichm

259 cessary input for an optimal color constancy solution to most natural light environments.

260 switches have been considered as a promising solution to overcome the fundamental speed limit of the

261 or superhydrophobic surfaces, an approximate solution to the base radius development was derived by a

262 This practical solution to the bryostatin supply problem also opens bro

263 of solar energy storage provide an effective solution to the inherent nature of intermittency, and ca

264 ved, this mechanism may provide a widespread solution to the problem of size control in eukaryotes.

265 The use of a secondary oven is often the solution to the problem.

266 ng method we have developed to find an exact solution to the Robinson-Foulds Supertree problem within

267 olled by diffusional mass transport from the solution to the sensing film, resulting in an increase o

268 We provide a solution to this problem by combining quantitative prote

269 One solution to this problem is to use two-photon microscopy

270 We now provide a general solution to this problem.

271 new biomarkers and development of treatment solutions to benefit patients with breast cancer at high

272 n emerging network biology and computational solutions to exploit these phenomena for cancer therapy

273 earch into underuse has focused on measuring solutions to the problem, with considerably less attenti

274 Here, to test potential solutions to this issue, we design and analyse a CRISPR-

275 degradation of acid orange 7 dye in aqueous solution under simulated solar irradiation.

276 s to large compound micelles (LCM) in dilute solution, underwent phase separation after heating at 55

277 recognition takes place in the denaturating solution used in standard therapeutic drug monitoring to

278 lationship of concentrations between the two solutions used can be explicitly determined by comparing

279 tions show that Li(+) adsorbs to the aqueous solution-vapor interface, while K(+) does not.

280 Chemical force measurements in aqueous solution versus methanol allowed quantification of the h

281 The optimum solution was determined using silhouette analysis.

282 e peptide, gold nanoparticle and aminosilane solution was then characterized via, UV-Vis spectroscopy

283 , the PFOA concentration in 1.4 L of aqueous solutions was reduced by 90% with the high rate process

284 To enable low cost diagnostic solutions, we recently established a citrate-derived syn

285 Hydroxycinnamic acids added to cyanidin solutions weakly impacted color characteristics (DeltaE<

286 ted starches were more obvious when glycerol solutions were used instead of water.

287 ith highly viscous fluid, 75% (w/w) glycerol solution, were generated, half of which were seeded with

288 f the six domain orientations are present in solution, where Dcp2 adopts an open, a closed, or a cata

289 zwitterion favors nucleophilic character in solution, whereas once confined within the framework, it

290 PEO45 -PDEAm89 -PDBAm12 copolymer solutions, which undergo a thermally induced transition

291 assay allowed quantification of thrombin in solution with a detection limit of 2.27aM.

292 and scalable spin coating process using ink solution with a truly soluble precursor.

293 +), Hg(2+), Ni(2+), and Pb(2+)) from aqueous solution with initial concentrations (60-6000 ppm) chose

294 lymer coated NPs was demonstrated in aqueous solution with minimal oxygen produced at pH7.4, whereas

295 ansmitter exocytosis was evoked by injecting solutions with elevated [K(+)].

296 ing term with a penalty term that encourages solutions with few haplotypes.

297 ectroscopy of the diffusion of hemoglobin in solutions with increasing protein concentration.

298 pairs are very similar to those detected in solution, with lambdamax in the 330-360 nm range.

299 re, origamis can be immobilized from folding solution without purification, even in the presence of e

300 In contrast, solutions without CO2 develop elongated convective chann