ライフサイエンスコーパス: salt solution

1 altering the height of a bottle of balanced salt solution.

2 a calcium- and potassium-containing balanced salt solution.

3 es separating compartments of pure water and salt solution.

4 after 24 h in 25 microM total Al in a simple salt solution.

5 DNA flexibility in gels, compared to aqueous salt solution.

6 matrix was returned to a serum-free balanced salt solution.

7 trifugation, C is a monomer in physiological salt solution.

8 ing is substantially inhibited by hypertonic salt solution.

9 binding is strongly inhibited by hypertonic salt solution.

10 iven a subconjunctival injection of balanced salt solution.

11 njection of either TGF-beta or of a balanced salt solution.

12 connected to an elevated bottle of balanced salt solution.

13 and subsequently regenerated by washing with salt solution.

14 mparison with the value measured in a simple salt solution.

15 nned in oil and transferred to physiological salt solution.

16 the nanoparticles from aggregating in a high-salt solution.

17 ng increased "hedonic responsiveness" to the salt solution.

18 to date of salting-in behavior in a protein-salt solution.

19 ed with tobramycin/dexamethasone or balanced salt solution.

20 spension (10 mg) prepared in 0.1 mL balanced salt solution.

21 DPs, bovine serum albumin (BSA), or balanced salt solution.

22 wo nanoscale hydrophobic surfaces in aqueous salt solutions.

23 te to the high thermostability of HDL in low-salt solutions.

24 lar phases swell when immersed in monovalent salt solutions.

25 imilar studies of bilirubin in micellar bile-salt solutions.

26 m hydroxide separation from alkaline aqueous salt solutions.

27 and related non-telomeric isomers in aqueous salt solutions.

28 ed by excess Al in agarose gels or in simple salt solutions.

29 erm stability in biological buffers and high-salt solutions.

30 most apparent when assayed in micellar bile salt solutions.

31 ated PTL activity normally in monomeric bile salt solutions.

32 used to generate acids and bases from 100 mM salt solutions.

33 ed in high-concentration, near-physiological salt solutions.

34 , and tends to precipitate in buffered 0.1 M salt solutions.

35 s different in 50 mM Tris buffer compared to salt solutions.

36 or reversible protein-protein aggregation in salt solutions.

37 t near the vapor-liquid interface of aqueous salt solutions.

38 nanoparticle templates and aqueous palladium salt solutions.

39 d by ions in dilute and concentrated aqueous salt solutions.

40 ty-gradient energy from ammonium bicarbonate salt solutions.

41 rolyte, propylene carbonate (PC), and its Li salt solutions.

42 th larger amounts of higher-concentration Li salt solutions.

43 in the presence of symmetric and asymmetric salt solutions.

44 mistry for labeling carbohydrates in aqueous salt solutions.

45 Bathing each channel with a high salt solution (1.5 M NaCl) produced stochastic openings

46 s of C. albicans incubated in Hanks balanced salt solution (+/-10% bovine serum albumin [BSA]) or RPM

47 eurofilaments to a solid substrate in a high-salt solution (170 mM NaCl), in the presence of coisolat

48 of systems: 1), ternary mixtures of MO with salt solutions above the hydration boundary; and 2), qua

49 Ns were suspended in HEPES-buffered balanced salts solutions adjusted to pH 6.7, 7.2, 7.7, or 8.2.

50 er 14 days of local endothelin-1 or balanced salt solution administration to the microvasculature of

51 ely seek out a once-undesirable concentrated salt solution after being depleted of bodily sodium desp

52 ficantly higher than ECs exposed to balanced salt solution alone or to BSA (P < 0.05) in all experime

53 icrog) in balanced salt solution or balanced salt solution alone was injected intravitreally immediat

54 but the tissue can be washed using balanced salt solution and gently injected.

55 lysis of unlabelled bacteriophage T7 in both salt solution and mouse blood plasma, using just ~1 x 10

56 Isotonic salt solution and normal donor samples of milk, colostru

57 Incubation of lenses in low-K+ balanced salt solution and TC-199 medium, containing physiologica

58 apable of moving in various media, including salt solutions and artificial serum.

59 Leu peptide does not precipitate in buffered salt solutions and binds to lipid bilayers.

60 ing to the density by flotation in different salt solutions and to the diameter.

61 of randomized double-blind 120-s exposure to salt solutions and water.

62 and was abolished in Ca2+-free physiological salt solution, and by pretreatment with La3+, 2-APB, tha

63 ected to sequential treatments with enzymes, salt solutions, and detergents to expose the NC.

64 ock involve incubation in high-concentration salt solutions, and lower permeability of the capsids to

65 Mixed salt solutions approximating physiological conditions ex

66 h mononucleosomal calf thymus DNA in aqueous salt solutions are characterized by vapor pressure osmom

67 Osmotic pressure measurements of spermidine salt solutions are consistent with this interpretation.

68 fluid interior of muscle resembles a simple salt solution as in a 4% agarose gel.

69 based beads as the stationary phase and bile salt solution as the mobile phase.

70 of 1% trifluorothymidine (TFT) and balanced salt solution as the vehicle control.

71 ms of reproducing the interfacial tension of salt solutions as a function of the salt molality; the s

72 nted long-fragment DNA bundles in monovalent salt solutions as first order, with a small but finite v

73 interface of NaHSO4, NH4HSO4, and Mg(HSO4)2 salt solutions as well as H2SO4 and HCl acid solutions a

74 of the propeptide of subtilisin E in aqueous salt solution, as well as for strong intermolecular inte

75 In a glucose-salt solution (Earle's balanced salt solution), asparagine (Asn) stimulates ornithine de

76 ed with oxygenated/heparinized physiological salt solution at 37 degrees C.

77 hermal unfolding of lipid-free apoA-1 in low-salt solution at pH approximately 7, by using differenti

78 mized to receive intracameral TA or balanced salt solution at the end of surgery.

79 d --> condensed DNA transition in polyvalent salt solutions at small enough polyvalent salt concentra

80 individual particles generated by bubbling a salt solution before and after addition of heterotrophic

81 aneous intercalation of cations from aqueous salt solutions between two-dimensional (2D) Ti3C2 MXene

82 1, an 8.0-mm diameter treated with balanced salt solution (BSS) and an 8.0-mm removal; group 2, an 8

83 patients who received enoxaparin in balanced salt solution (BSS) during cataract surgery, while stand

84 Seprafilm also was soaked in balanced salt solution (BSS) incubated at 37 degrees C, and the p

85 hyaluronic acid (Healon) or sterile balanced salt solution (BSS) into the subretinal space of 4-5-day

86 An IVT injection of balanced salt solution (BSS) or lipopolysaccharide (LPS) was foll

87 rmalin for 2 hours and equilibrated in basic salt solution (BSS) over a 24-hour period.

88 roups of rabbits had IVI of sterile balanced salt solution (BSS), MTX (400 microg), dexamethasone (De

89 ips between T1 relaxation times and balanced salt solution (BSS), to simulate human vitreous and aque

90 rouracil (5-FU; 5 mg, 50 mg/mL), or balanced salt solution (BSS; 0.1 mL, control).

91 rth, TX) ophthalmic suspension, and balanced salt solution (BSS; Alcon Laboratories).

92 to calculate CO2 solubility in aqueous mixed-salt solution by using the additivity rule of the Setsch

93 Since detachments were created with balanced salt solution, by examination, all retinas had spontaneo

94 mobilities observed in all buffer and buffer/salt solutions can be predicted within approximately 20%

95 In lowered salt solutions, CFTR P(o) declined within 1 s to a stabl

96 with experiments in aqueous media, including salt solutions commonly used in the study of proteins an

97 drives water flow from the pure-water to the salt-solution compartment.

98 Nanosprayed salt solutions comprised of stable analogs, as proxies t

99 All three salt solutions contained WSOM with a higher fluorescence

100 ated for 5, 10 or 20 min in Earle's balanced salt solution containing 1.2 mM tannic acid (to enable v

101 TALH cells were incubated in a physiological salt solution containing high or low levels of NaCl.

102 ollicles incubated in vitro in physiological salt solution containing small amounts of blood and fluo

103 By immersing these gel fibers in salt solutions containing both Ca(2+) and Na(+) at varyi

104 he presence of elastin fragments or balanced salt solution (control).

105 detergents (SDS plus Nonidet P-40) and high-salt solutions, could convert NF-P1 into NF-P2.

106 Elevated concentrations of nondenaturing salt solutions defeat the effects of reverse micelle-pro

107 In a glucose-salt solution (Earle's balanced salt solution), asparagi

108 Earle's balanced salts solution (EBSS) with limited NaCl concentration wa

109 nfluent salt concentration of 15 g.L(-1) and salt solution flow rate of 0.04 mL.min(-1), and to be op

110 of 2.5 mg/mL collagenase type 2 in balanced salt solution followed 1 hour and 15 minutes later by an

111 ATP-sepharose matrix and washed with a high salt solution followed by nicotinamide adenine dinucleot

112 It was found that protein aggregation in salt solutions followed 2 distinct Hofmeister series dep

113 bridement was produced by injecting balanced salt solution forcefully into the subretinal space.

114 (Im chi((2))) spectra of acid and bisulfate salt solutions further reveal that hydrogen-bonded water

115 RNA molecules in monovalent salt solutions generally adopt a set of partially folded

116 of two inhalation exposures: Hanks' balanced salt solution (HBSS) and corn dust extract (CDE; 0.4 mic

117 d with EMD, AMEL, and PGA in Hank's balanced salt solution (HBSS) for 1, 3, and 24 hours.

118 apped but unopened bottle of Hank's balanced salt solution (HBSS) grew O. anthropi.

119 njections of either HSV-1 or Hanks' balanced salt solution (HBSS).

120 LTB4]), or negative control (Hanks' balanced salt solution [HBSS]).

121 lacing hemofiltration volume with a balanced salt solution (HF group).

122 In addition, VSFG spectra of bisulfate salt solutions highly resemble that of the dilute H2SO4

123 only source of Ca(2+) was the physiological salt solution in the patch pipette containing 2 mM Ca(2+

124 sive mechanisms when perfused with isosmolal salt solutions in a bath with appropriate salt and urea

125 Concentrated salt solutions in nonaqueous solvents exert a remarkable

126 additional simulations of 20 different pure salt solutions-in which no hydrophobic solutes are prese

127 of Pronase, but not DNAse, RNAse, or strong salt solutions, indicating covalent attachment to protei

128 After diclofenac sodium salt solution injection, drug levels declined rapidly wi

129 nal animals received either drug or balanced salt solution injections into normal eyes, and paraffin

130 ontrols that received only peribleb balanced salt solution injections.

131 rate that the usage of specific ionic liquid salt solutions instead of NaCl or KCl solution as suppor

132 stingly, contrary to some other near-neutral salt solution interfaces (e.g., chlorides and nitrates),

133 jecting 0.25% sodium hyaluronate in balanced salt solution into the subretinal space.

134 n in OmpF porin bathed by a 1M KCl symmetric salt solution is examined.

135 (DMPC) bilayer bathed by a 1 M [KCl] aqueous salt solution is generated to explore the microscopic de

136 ted overall paramagnetism in the oxoammonium salt solutions is explained by a redox equilibrium as sh

137 ion of isolated fiber cells in physiological salt solutions is mediated by Ca(2+)-activated protease(

138 n between the magnetic susceptibility of the salt solution, its concentration, and ease of actuation.

139 rrents between BN nanosheets in a variety of salt solutions (KCl, NaCl and CaCl2) at low salt concent

140 much higher than those reported for standard salt solutions (KD) of about 40 and 130 nM, respectively

141 etely stripped from their surfaces with high salt solutions, leaving the IgG-PG/GCN4 DNA binding comp

142 Understanding the freezing of salt solutions near solid surfaces is important in many

143 In these salt solutions, numerous illite fibers precipitated afte

144 ing was reversibly controlled by exposure to salt solution of varying concentration, which "doped" co

145 for a monoclonal antibody in the monovalent salt solutions of KF, KCl, and KSCN under different pH c

146 understanding of nucleation and freezing of salt solutions on solid surfaces and the effects of salt

147 Palomid 529 (600 microg) in balanced salt solution or balanced salt solution alone was inject

148 compared with treatment with Hank's balanced salt solution or DCs transduced with rat HER-2/neu.

149 compared to the decrease induced by balanced salt solution or to the decrease in rabbits without mini

150 rol nasal spray, which consisted of buffered salt solution; or 3) no treatment.

151 ), quaternary mixtures of MO with betaOG and salt solutions over a wide range of hydration conditions

152 ossible salt concentrations: (a) in a dilute salt solution, PE chains possess an extended coil confor

153 MA network was superfused with physiological salt solution (pH 7.4, 37 degrees C).

154 nal fluid at pH 4.5 and 7.2, (2) physiologic salt solutions (phosphate-buffered saline and saline) co

155 mples such as gold nanoparticles and aqueous salt solution placed on the back side of a window.

156 repared by incubating PMN in Hanks' balanced salt solution plus TNF-alpha for 1-4 hrs.

157 ng on Sephacryl HR S500 in buffered balanced salts solution plus albumin.

158 ng with soap (observation), oral rehydration salt solution preparation (demonstration), and zinc use

159 f an intervention effect on oral rehydration salt solution preparation and breastfeeding outcomes.

160 s dissolved in a low-pH isotonic physiologic salt solution produced significant force generation in a

161 herwise untreated follicles in physiological salt solution (PSS) containing either calmidazolium or W

162 mL Kenalog in one eye and 0.1 mL physiologic salt solution (PSS) in the fellow eye.

163 fluid balance following ingestion of a high-salt solution-rats produced significantly more urine, co

164 g the films of agarose and lipids in aqueous salt solutions resulted in swelling and partial dissolut

165 ary outcomes were intake of oral rehydration salt solution, severity of vomiting, and serum levels of

166 0.005 mg, 0.02 mg, and 0.08 mg) and balanced salt solution showed normal ciliary body epithelium at t

167 arge properties (zeta-potential) in 1 mM KCl salt solution showed that apo-Lf reached the net charge

168 r elements leach from composites stored in a salt solution simulating saliva than from composites sto

169 n-specific and explains why all concentrated salt solutions slow down water dynamics.

170 t here that the application of some ammonium salt solutions, such as citrates and phosphates, instead

171 of a metal salt, or the controlled mixing of salt solutions supplying a metal cation and an elemental

172 x 50, and Dowex Mac 3) were compared in pure salt solutions, synthetic urine, and real stored urine.

173 2+)-K(+), and Ca(2+)-K(+)) occurred in these salt solutions than in water (H(+)-K(+)).

174 e in the chemistry of concentrated inorganic salt solutions than was previously recognized.

175 of 2.5 mg/mL collagenase type 2 in balanced salt solution that was left in the stroma for 1 hour and

176 Using salt solutions that could be continuously regenerated wi

177 lightly reduced from 7.4 to 6.6, in isotonic salt solutions that simulate the acidic extracellular mi

178 At 25 degrees C in the presence of this salt solution, the enzyme was approximately 100% stable

179 s tested by filling the globes with balanced salt solution through an anterior chamber port and slowl

180 S to image the mixing of aqueous glucose and salt solutions throughout the entire helix volume.

181 Likewise, the application of an aqueous salt solution to one side of the pizza crust led to an e

182 ration of topical 2% epinephrine or balanced salt solution to six cynomolgus monkeys.

183 er as the chemoattractant and Hanks balanced salt solution to test random migration.

184 -100, tobramycin/dexamethasone, and balanced salt solution treatments.

185 in a dosage of 0.1 microgram/day or balanced salt solution (two rabbits) was delivered to the perineu

186 ropium bromide nasal spray 0.06% in buffered salt solution, two 42-micrograms sprays per nostril admi

187 to mice that were dialyzed with an isotonic salt solution under quiescent conditions for 1 h produce

188 cting membrane-confined nanowires with metal salt solutions under reducing conditions, site-specific

189 compounds by reaction with appropriate metal salt solutions under reducing conditions.

190 laque forming unit in 0.1 ml Hank's balanced salt solution) was inoculated 4 days after gas compressi

191 chloride (8-20 microg in 0.04 mL of balanced salt solution) was performed in 9 eyes, followed by inje

192 hed male C57BL/6 mice injected with balanced salt solution were used as control subjects (five for ea

193 In the w|RTIL system, two rubidium salt solutions were employed: RbNO(3) and RbNO(3) plus R

194 of proteins from aqueous ammonium and sodium salt solutions were investigated.

195 trations in air-saturated phosphate-buffered salt solutions were monitored by measuring the decay of

196 Microclimates, obtained with saturated salt solutions were used for conditioning samples and th

197 6, but they transfer chloride salts from 1 M salt solutions, whereas B18C6 does not.

198 ration rates and high deliquescence of these salt solutions, which are essential for stability within

199 incubated at 37 degrees C in a physiological salt solution while the solution was bubbled with four d

200 formation was examined using Hanks' balanced salt solution with and without selective inhibitors of A

201 ons of stroma-free hemoglobin and hypertonic salt solutions with colloid, searches for the optimal co

202 ltage-clamped with patch pipettes containing salt solutions with defined [Mg(2+)] and [Ca(2+)].