ライフサイエンスコーパス: dilute solution

1 with Ca(2+), while arabinoxylans generated "dilute solutions".

2 ilbenes, similar to the dicarboxylic acid in dilute solution.

3 nt in the crowded interior of a cell than in dilute solution.

4 al information about proteins is obtained in dilute solution.

5 hrome b(5) in living Escherichia coli and in dilute solution.

6 ed protein samples in either concentrated or dilute solution.

7 osity of the cytosol compared to that of the dilute solution.

8 his partially folded protein in cells and in dilute solution.

9 have been extensively studied in bulk and in dilute solution.

10 l change that is detected at 35 degrees C in dilute solution.

11 addition of [Pt(1,5-cyclooctadiene)Cl2 ] in dilute solution.

12 ese theoretical components assuming an ideal-dilute solution.

13 studies are almost exclusively performed in dilute solution.

14 more slowly than comparably sized spheres in dilute solution.

15 ild-type alpha-synuclein (WT), disordered in dilute solution.

16 hat this protein is essentially monomeric in dilute solution.

17 of oligomerization and gross conformation in dilute solution.

18 ng environment that is much different from a dilute solution.

19 PP1 toward c-Src kinase compared to that in dilute solution.

20 for exciton transport along the BCP chain in dilute solution.

21 splitting, aggregation, and rearrangement in dilute solution.

22 tes on the surface of Chemotaxis Y (CheY) in dilute solution.

23 e H(2)O(2) oxidation pathway compared to the dilute solution.

24 mation in the presence of Ficoll70 than in a dilute solution.

25 in stability is affected differently than in dilute solution.

26 ons sufficient to fold the RNA in crowded or dilute solution.

27 nally (i.e., without mutual interference) in dilute solution.

28 :hybrid-2:triplex is approximately 11:5:1 in dilute solution.

29 ironment is predicted to differ from that in dilute solution.

30 o major shifts relative to those measured in dilute solution.

31 s comes from studies on purified proteins in dilute solution.

32 xhibit little or no increase in breathing in dilute solutions.

33 , and effective way of detecting antigens in dilute solutions.

34 he Debye-Huckel theory) to macroions in very dilute solutions.

35 ring-opening olefination upon sonication in dilute solutions.

36 ht scattering measurements were conducted in dilute solutions.

37 tion causing an increase in the viscosity of dilute solutions.

38 0 g/L, but they are almost always studied in dilute solutions.

39 ulk state or measured ensemble properties of dilute solutions.

40 monomer are nearly identical in crystals and dilute solutions.

41 ion is head-to-tail polymerization, even in dilute solutions.

42 endent compaction of individual molecules in dilute solutions.

43 such as DNA, respond sensitively to ions in dilute solutions.

44 alization specificities that cannot occur in dilute solutions.

45 and serve as nuclei for NP crystal growth in dilute solutions.

46 he polymers under pulsed ultrasound of their dilute solutions.

47 behavior of most mobile--the PuO2(+) form in dilute solutions.

48 s in cells deviates from what is observed in dilute solutions.

49 he dynamics of individual water molecules in dilute solutions.

50 ns is found to provide a good description in dilute solutions.

51 cesses of inorganic salts (LiCl) or mandated dilute solutions.

52 of association are similar in crowded and in dilute solutions.

53 l molecules, such as the self-recognition in dilute solutions.

54 acromolecular structure of brush polymers in dilute solutions.

55 tion of small numbers of molecules in highly diluted solutions.

56 avoring different aggregated end products in diluted solutions.

57 ion is essentially irreversible on heating a dilute solution (0.10% w/w) but is more or less reversib

58 and poly(cyclohexene sulfone) cast from very dilute solutions (0.007%, wt/vol) and rapidly freeze-dri

59 attachment either by direct deposition of a dilute solution (1 microM-1 mM) of the porphyrin sample

60 The use of diluted solutions (1-14.4 mol L(-1) HNO3 and 1-4 mol L(-

61 ), yet completely disproportionated when its dilute solution (10 mug L(-1)) was analyzed using liquid

62 FDH in dilute solutions (30 microg/ml) was rapidly inactivated

63 a measurable visible upconverted signal in a dilute solution (5 x 10(-4) M) at room temperature.

64 The thermal response of semi-dilute solutions (5 w/w%) of two amphiphilic thermorespo

65 previous studies of these cycloadditions in dilute solution, a more complete picture of aqueous envi

66 chemical reactions are most often studied in dilute solution, a poor mimic of the intracellular space

67 cesses of enantiomers and racemates, in both dilute solution and concentrated gels, acts as a steppin

68 se blobs are in dynamic equilibrium with the dilute solution and give birth to the clathrate cages th

69 orm of DNA is thought to predominate both in dilute solution and in living cells.

70 -tagged heparin and the coassemblies in both dilute solution and in macroscopic gels.

71 e c to yeast ferricytochrome c peroxidase in dilute solution and in solutions crowded with the sugars

72 30P and A53T) behave in the same way in both dilute solution and in the E.coli periplasm.

73 ing 5000 pCi/L of Ra-226 to more than 80% in dilute solution and to more than 50% in high-salinity so

74 ions, corresponding to DNA condensation from dilute solution and to osmotic stress experiments in whi

75 R-state Hb(II)O 2 alphabeta dimers, both in dilute solution and when bound to CDB3.

76 inations of protein secondary structure with dilute solutions and a way to rapidly assess conformatio

77 s expression reduces to standard results for dilute solutions and for undiluted polymers.

78 of these synbodies to capture norovirus from dilute solutions and found that one synbody could captur

79 and ultimately were absent both in the more dilute solutions and in aged aliquots of the concentrate

80 driving forces for single-chain collapse in dilute solutions and the driving forces for phase separa

81 ndiscriminate mixture, by concentration from dilute solution, and in the case of the mineral-induced

82 y of supramolecular polymers in the bulk, in diluted solution, and at the solid-liquid interface has

83 (kcat and KM), determined for the enzyme in dilute solution, appeared to be unchanged by the conditi

84 d to seed the trapping event, sperm cells in dilute solution are trapped as a result of the enhanced

85 surface hydration layer of lipid vesicles in dilute solutions are presented.

86 We have determined thiol-coupled products in dilute solutions arise mainly from addition to the insid

87 s solutions at 100 % as the control (C), and diluted solutions at 12.5 % (H12), 25 % (H25), and 50 %

88 rements indicate that the viscoelasticity in dilute solution behaves according to the Flory/Fox model

89 havior of concentrated antibodies from their dilute solution behavior is of significant interest and

90 The dilute solution behaviour of native and activated capsul

91 d a red-shifted absorption that is absent in dilute solution but becomes observable at high concentra

92 hat adding simple salts folds the variant in dilute solution but increasing the salt concentration in

93 f solvated electrons, which are localised in dilute solutions but exhibit metallic behaviour at highe

94 ost studies of this protein are performed in dilute solution, but its biologically relevant role is p

95 city can also self-assemble into vesicles in dilute solution, but polymer molecular weights can be or

96 n planar extensional flow were visualized in dilute solution by fluorescence microscopy.

97 se alcohols on the precipitation of DNA from dilute solution by spermidine(3+).

98 ciency of 20% in the solid state (vs. 30% in dilute solutions) by incorporating such a dye in a wider

99 ion, produced via MES, must be recovered, as dilute solutions can be expensive to store and transport

100 constant-chemical-potential conditions like dilute solutions changing the composition of the molecul

101 molecular assemblies was formed by combining dilute solution characteristics critical for both bundli

102 namics have been studied only in vitro under dilute solution conditions where solute concentrations a

103 model ribozymes have been investigated under dilute solution conditions, using electron paramagnetic

104 oating 2-D sheets of {U(60)}, and finally to dilute solutions containing a limited amount of self-ass

105 fluids containing rigid 2-D sheets, then to dilute solutions containing a small amount of standalone

106 s amenable to high-throughput measurement in dilute solutions, correlates well with the viscosity of

107 Comparisons to dilute solution data (pH 7.6 and 37 degrees C) show that

108 oints (T(m)s) in concentrated rather than in dilute solutions (deltaT(m) approximately 2-10 degrees C

109 rated solutions exhibit a lower T(m) than in dilute solutions (deltaT(m) approximately 2-20 degrees C

110 Thermophoresis measurements in dilute solution demonstrated a marked change in polymer

111 rry"-type supramolecular structures in their dilute solution, driven by the counterion-mediated attra

112 rlocked dodecameric rings is also evident in dilute solution employing transmission electron microsco

113 tion of myoglobin that was absorbed from its dilute solution, followed by elution and digestion or di

114 lows rapid screening of organic molecules in dilute solutions for potential use in third-order NLO ap

115 nt: many of the derivatives can be stored as dilute solutions for several days or even weeks.

116 seven hydrocarbons are remarkably robust in dilute solution, generally surviving exposure to moderat

117 nts were carried out at 50 K in two types of dilute solution glasses: deutero-toluene (with 10% deute

118 The law of mass action for dilute solutions has taught us to use an excess of beads

119 relevant to their potential use as vaccines (dilute solution) - have been investigated with respect t

120 ll these proteins are known to fibrillate in diluted solutions, however their aggregation mechanisms

121 The stability and properties of dilute solution hydrogels, synthesized by transition met

122 channel walls by filling the channel with a dilute solution in 1:1 n-pentane and dichloromethane and

123 r linear energy relationships and infinitely dilute solution in n-hexadecane as the reference state.

124 When heated as a dilute solution in triflic acid/dichloroethane, anthrace

125 As dilute solutions in chloroform, tweezers 1 displays both

126 mics in cells may be different from those in dilute solutions in vitro, because the environment in ce

127 properties may differ from those observed in dilute solutions in vitro.

128 nical 1:2 stoichiometry between Rab14-RCP in dilute solutions, in contrast to Rab11/25 complexes.

129 -to-ligand charge-transfer triplet states in diluted solutions, in frozen glasses and in crystals, wi

130 magnitude lower than what is expected for a dilute solution, indicating that the encapsulated soluti

131 ular-weight (<500 Da) biomolecules in highly diluted solutions is still a challenging issue owing to

132 conformation for the structure of mefp-1 in dilute solution, is considered, within plausible limits

133 studies have traditionally been performed in diluted solutions, it was pointed out in the late 1990s

134 n, grinding, and even simple stirring of the dilute solutions, leading to changes in absorption and f

135 In more dilute solutions, lower-molecular mass species predomina

136 e predominant UVA photoproduct of S(4)TdR in dilute solution, more complex lesions are formed when S(

137 ng to 250 degrees C and then treating with a dilute solution of 1 yields a hole surface recombination

138 magnetic resonance spectroscopy shows that a dilute solution of [(+)-NDI-Delta(3(-*))(CoCp2(+))3] in

139 The eluent is a dilute solution of a neutral salt, sometimes containing

140 rization on gold surfaces upon exposure to a dilute solution of diazomethane (DM) and ethyl diazoacet

141 However, if the SUVs were suspended in a dilute solution of either sucrose or NaCl, the COR polyp

142 scopy are usually prepared by spin-coating a dilute solution of emitters on a microscope cover slip o

143 waveform from +1.5 V to -0.8 V and back in a dilute solution of ethylenedioxythiophene (EDOT) and Naf

144 Application of this approach to a dilute solution of Fe(CO)(5) in n-dodecane under VSC dem

145 er a temperature range 230-290 K in our most dilute solution of lithium in ammonia.

146 d on top of a thin lrECM gel overlaid with a dilute solution of lrECM, may be used as described in Bo

147 brium in the analytical ultracentrifuge of a dilute solution of protein (0.4 mg/mL) in acetate buffer

148 Chemical lysis of a single cell, using a dilute solution of SDS, gave a S/N of 26+/-2 (n = 2), ro

149 f 10 million autologous cells suspended in a dilute solution of sodium hyaluronan was delivered to th

150 d in a differential calorimeter containing a dilute solution of solute in the sample cell and the cor

151 Crucially, in dilute solution of these systems, SF does not depend on

152 In this medium, dilute solutions of 7 are yellow but produce colorless p

153 Dilute solutions of a simple, coil-like polymer in a vol

154 n ice eutectic phases that are produced when dilute solutions of activated monomers and catalysts (Mg

155 ntal simulations of polymerization reactions dilute solutions of activated mononucleotides in the mil

156 respect to displacement by exposing them to dilute solutions of alkanethiols.

157 Dilute solutions of benzene-based p-QDMs, p-xylylene (1)

158 NMR spectra of dilute solutions of both the AAD and the ADD 3-mer show

159 proton spin-lattice relaxation is studied in dilute solutions of bovine serum albumin as a function o

160 y vibrationally enhanced four-wave mixing in dilute solutions of carbon disulfide using an ultrafast

161 ion device was first demonstrated using very dilute solutions of Coumarin 519.

162 sis was tested by dry-down experiments where dilute solutions of cyanoacetaldehyde, guanidine hydroch

163 ink-mediated bundle formation only occurs in dilute solutions of highly mobile actin filaments.

164 lutes, allowing the characterization of very dilute solutions of macromolecules, applications we call

165 in the application of Raman spectroscopy to dilute solutions of macromolecules.

166 both aqueous distillation and leaching with dilute solutions of nitric acid.

167 olyelectrolyte complexes, formed from mixing dilute solutions of oppositely charged polypeptides, via

168 ch focusing condition was investigated using dilute solutions of pBluescript DNA.

169 itions, the addition of condensing agents to dilute solutions of random-coil DNA gives rise to highly

170 se factors, we measured D and D infinity for dilute solutions of several fluorescein-labeled macromol

171 PDMS films were prepared by spin-casting dilute solutions of Sylgard 184 onto glass coverslips, y

172 Dilute solutions of TCA, MgCl(2), NaCl, CuCl(2), ZnCl(2)

173 NMR spectra of dilute solutions of the AD 2-mer show that intramolecula

174 Dilute solutions of the CBI-amino acids in water can be

175 we assessed the sensitivity toward light of dilute solutions of the corroles prepared in this study.

176 ad isotopic ratio measurements was tested on dilute solutions of the lead certified material NIST SRM

177 0 M(-1) for monomer to 1.2 x 10(9) M(-1) for dilute solutions of the polymer having N(PRU) approximat

178 The electrodes are prepared by spin coating dilute solutions of the positive photoresist AZ 4330 ont

179 In dilute solutions of the redox couple, the OCP deviates f

180 ive ligands imparts an emissive behaviour to dilute solutions of the resulting assemblies.

181 Dilute solutions of these copolypeptides would be expect

182 lymer inverse transition temperature (T(t)), dilute solutions of this amphiphilic protein formed mono

183 Sedimentation equilibrium studies of dilute solutions of tryptophan synthase reveal dissociat

184 r, the sequence of addition of poly(rU) to a diluted solution of ADP/NaF-treated enzyme had a profoun

185 enable lasing of only a 100-nm thin layer of diluted solution of organic molecules with substantially

186 Refolding experiments were performed by diluting solutions of TIM unfolded in GdHCl or urea and

187 valuated for these purposes either emit as a dilute solution or on aggregation, with the former often

188 e (CS) were efficiently isolated from highly diluted solutions or spiked artificial cerebrospinal flu

189 ith a compact crystalline solid instead of a dilute solution, provides a new route for in situ produc

190 ed rhomboid 7 shows a weaker fluorescence in dilute solutions relative to that of the fused triangle

191 ng single-molecule sensitivity in any highly diluted solutions remains a challenge.

192 the fused polygons are innately emissive in dilute solution, representing an alternative to aggregat

193 However, as expected from the dilute solution results, linear extension is indeed favo

194 Dilute solution state quantum yields vary significantly

195 cal protein dynamics from that of tau in the dilute solution state.

196 states, and triplet-state stabilization in a diluted solution state.

197 Dilute solution-state photoluminescence quantum yields w

198 Therefore, it appears that dilute solution steady-state {1H}-15N nOe measurements p

199 ssemblies (n values) are not as great as the dilute solution studies predict; this is attributed to t

200 cal reactions are typically carried out in a dilute solution that rarely contains anything more than

201 sphates associate into dynamic assemblies in dilute solutions that are spectroscopically "dark." Cryo

202 but experimental data are often obtained in dilute solutions that do not reflect in vivo conditions.

203 Analytes are retained in a diluted solution that is suitable for carrying out analy

204 In dilute solutions the filaments exhibit thermal bending u

205 At the same time, for infinitely dilute solutions the renormalized electric conductivity

206 folded states, and suggest that, relative to dilute solutions, the rates of many protein folding proc

207 In dilute solutions, the reversible aggregation of Py[16] i

208 Measurements of a dilute solution thermodynamic parameter, the osmotic sec

209 In dilute solutions, these peptides showed a number of low-

210 ross a transition from dispersed monomers in dilute solution to clustered states at more concentrated

211 Transfer from dilute solution to the cytosol has a quantitative effect

212 Self-assembly occurs in dilute solutions to form stacked aggregates, which show

213 ormation energetically and kinetic growth in dilute solutions to rapidly crystalize NPs over multiple

214 ith respect to the number of molecules for a dilute solution under VSC by assuming that each QM solut

215 spheres to large compound micelles (LCM) in dilute solution, underwent phase separation after heatin

216 The stability of the 5-isocorrole in dilute solution upon exposure to light and air was asses

217 ability of the electron-deficient phlorin in dilute solution upon exposure to light and air was probe

218 efficient delayed fluorescence generation in dilute solution using a non-covalent approach via supram

219 ctivating delayed fluorescence emission in a dilute solution via a non-covalent approach is a formida

220 e analysis, spectroscopy, chromatography and dilute solution viscometry.

221 C)s are predominantly cyclic as evidenced by dilute solution viscosity studies and MALDI-TOF MS.

222 cids and related amphiphiles would result in dilute solutions well below the cac, the identification

223 Blanks were negligible and only diluted solutions were required.

224 ermally induced sphere-to-worm transition in dilute solution, were found to reversibly form soft (G'

225 h reactions appear homogeneous, typically in dilute solution, whereas others are obviously heterogene

226 ith fluorescence quantum yields of 58-76% in dilute solution, whereas they emit yellow-green light as

227 Actomyosin kinetics is usually studied in dilute solutions, which do not reflect conditions in the

228 between charged macroionic solutes in their dilute solutions, which regulate the solute's microphase

229 escribed, and the very strong interaction in dilute solution with a mucin glycoprotein is demonstrate

230 lytic reactions and to obtain NMR spectra of dilute solutions with a single pulse of an NMR spectrome

231 Polymerization of dilute solutions yields a material containing mostly (Mo