ライフサイエンスコーパス: surface-active

1 nct of the three and is the only one that is surface active.

2 of a centrosymmetric Fe(III) species that is surface active.

3 gnificantly increase drag if they are highly surface active.

4 ociation to generate the structures that are surface active.

5 of SSO, indicating that it was not strongly surface active.

6 Both B6.4-13 and B13-17 are surface active.

7 structures which are cationic in nature and surface active.

8 nized that many amyloid-forming peptides are surface-active.

9 While both peptides are surface active, [198-243]apoA-I is more stable at the TO

10 Amyloid precursors are surface-active, accumulating at hydrophobic-hydrophilic

11 t of a nontoxic, nonionic block co-polymeric surface active agent, poloxamer 188, on electroporation

12 ptomycetes proteins, the fungal protein is a surface active agent.

13 Lung surfactant is the surface-active agent comprised of phospholipids and prot

14 erved when KSL was used in the presence of a surface-active agent, or after biofilms were mechanicall

15 Surface active agents (surfactants) have found a variety

16 Surface active agents derived from the non-toxic sweeten

17 Auxiliary surface-active agents have been harnessed to stabilize t

18 Therapeutic administration of non-ionic surface-active agents is known to facilitate early colla

19 hat modification of tooth permselectivity by surface-active agents may be a viable method of decreasi

20 points the potential contribution from other surface-active agents such as surface/ secreted proteins

21 microemulsions, and microfoams stabilised by surface-active agents such as surfactants and colloidal

22 Two-dimensional films of surface-active agents-from phospholipids and proteins to

23 r pulses results in faster depletion of more surface active analytes, effectively comprising a surfac

24 measurements due to ion suppression of less surface active analytes, particularly in the analysis of

25 his technique to readily generate spectra of surface-active analytes, and we compare the spectra to t

26 Components of serum are surface active and adsorb reversibly to the interface in

27 s a result, the GO-adsorbed nanowires become surface active and are enriched at the air-water interfa

28 d soluble, the tau proteins were also highly surface active and favorably interacted with anionic lip

29 son to APIc discerned as improved hydration, surface active and gelation properties.

30 de toxins, the hemolysin from B. cepacia was surface active and lowered the surface tension of high-p

31 roduces SapB, an amphipathic peptide that is surface active and required for aerial growth on certain

32 This new amphiphile is surface active and, more importantly, does not denature

33 r- and polyfluoroalkyl substances (PFAS) are surface-active and adsorb at fluid-fluid interfaces.

34 c organic constituents in the atmosphere are surface-active and chiral, the role of stereochemistry i

35 Surface-active artificial enzymes (SAEs) are designed an

36 of this difficulty is the presence of highly surface-active asphaltenes in petroleum.

37 ed ferrocyanide, Fe(CN)(6)(4-), anion is not surface active at high concentrations, as expected, but

38 nce-random copolymers can mimic the in vitro surface-active behavior of lung surfactant proteins in a

39 spholipids that yield functionally important surface active behaviors.

40 ylglyoxal (MG) and acetaldehyde, known to be surface-active, can enhance aerosol CCN activity upon up

41 he carbonyl oxygens and silicon atoms in the surface-active center, which becomes pentacoordinate, wa

42 Here, we present new evidence that surface-active, charge reducing reagents carry away exce

43 Droplets emitting surface-active chemicals exhibit chemotaxis toward low-p

44 concentrations of natural and anthropogenic surface-active chemicals in the sea surface microlayer.

45 Application of cell spreading surface-active coating materials in combination with tot

46 Previous work demonstrated that chiral, surface-active collectors could be used to enrich enanti

47 quids or of a liquid and a gas stabilized by surface-active colloidal particles.

48 cific hydrogen atoms with methyl groups in a surface-active comonomer utilized in adhesive bonding pr

49 The present research explored the surface active components in coffee oil, and those respo

50 rimental measurements on the interactions of surface active components such as trehalose with monolay

51 Surface active compounds (surfactants) have been found i

52 indicated that in most cases the mixture of surface active compounds lead to production of colloidal

53 on effects caused by the presence of various surface active compounds that coelute with the analyte.

54 ique in the presence of different food grade surface active compounds, namely, Polysorbate 20 (PS20),

55 this work, we investigate the adsorption of surface-active compounds at the water-oil interface subj

56 erall solubility, indicating the presence of surface-active compounds below the critical micelle conc

57 Exposing these QDs to protic surface-active compounds RXH, such as fatty acids or alk

58 GSB doughs were apparently not surrounded by surface-active compounds so that the impact of PIN-lipid

59 One such factor is the group of surface-active compounds.

60 ities to the water-oil interface are used as surface-active compounds.

61 s indicated the absence of slowly adsorbing, surface active contaminants.

62 n of anionic surfactants, modeling potential surface-active contaminants, we observe the free OH to d

63 hanced the relative analyte responses of the surface-active corrosion inhibitors.

64 surface activity measurements, with the more surface-active dimers exhibiting increased hydrophobicit

65 water with sodium dodecylsulfate (SDS) as a surface-active dispersing agent.

66 asurements, confocal microscopy of deposited surface-active dyes and drop impact studies, we propose

67 veals that the second solvation shell of the surface active Fe(III) complex permeates the topmost lay

68 pete efficiently with serum to form a highly surface-active film.

69 a propeptide (SP-C21) to produce the 3.7-kDa surface active form.

70 witterionic and anionic phospholipids to the surface-active function of calf lung surfactant extract

71 charge due to protonation or dissociation of surface active functional groups.

72 a facile and efficient method for preparing surface-active functional trialkoxysilanes.

73 onstrate a novel technique to achieve highly surface active, functional, and tunable hierarchical por

74 es have reported that larger ions tend to be surface-active, implying ions are located on top of the

75 restingly, diverse proteins were found to be surface active in multiphase coacervates: BSA, mCherry,

76 measurements, we find that CAV1-8S is highly surface active, intercalating into lipid monolayers of v

77 ctadecylamine are also made, and this highly surface-active ion is observed to outcompete all other a

78 The design and properties of surface-active ionic liquids that are able to form stabl

79 life cycle, surfactant converts from highly surface active, large aggregates to less surface active,

80 Surface Active Maghemite Nanoparticles (SAMNs) were used

81 ed on prussian blue (PB) coating on peculiar surface active maghemite nanoparticles (SAMNs), was deve

82 hell nanocarrier, combining the magnetism of surface active maghemite nanoparticles (SAMNs, the core)

83 t work demonstrates the feasibility of these surface active maghemite nanoparticles as efficient hydr

84 oparticles, synthesized in-house and called "Surface Active Maghemite Nanoparticles" (SAMNs), are pro

85 e (gamma-Fe2O3) nanoparticles, called SAMNs (surface active maghemite nanoparticles) and characterize

86 es, and Culex are able to locate and land on surface-active manatees, and at minimum, penetrate and p

87 portant roles in the production and decay of surface active materials; however, the details of these

88 used on simple emulsions and foams, in which surface-active materials such as surfactants or colloids

89 ring organics in seawater, some of which are surface active, may be the cause of the variability in G

90 nstrate that membranes constitute a critical surface-active medium for promoting interactions between

91 ow that earthworms possess a class of unique surface-active metabolites in their gut, which we term '

92 Biosurfactants are surface-active microbial products that have numerous ind

93 sorption of aldehydes in positively charged surface active minerals.

94 le environment is presented for the study of surface-active molecules at solid-liquid interfaces unde

95 ce-area-to-volume ratio of aerosol droplets, surface-active molecules can become depleted in the drop

96 ese data suggest a defect in crosslinking of surface-active molecules in OA and provide novel insight

97 turated with atmospheric gas and may contain surface-active molecules that can lower surface tension.

98 E(0) is determined by characteristics of the surface-active molecules.

99 ersible post-translational modification of a surface-active morphogenetic peptide suggests a new mode

100 Previous evidence has shown that on the cell surface, active MT1-MMP undergoes autocatalytic processi

101 and molecular weight of hyaluronic acid and surface-active mucinous glycoproteins that form a lubric

102 However, the surface active nature of the oil has not yet been invest

103 ese two seemingly different phenomena is the surface-active nature of the amyloid-forming species, wh

104 This coincided with an 80% decrease in surface active Ni(II)/Ni(III) concentrations, 190-fold i

105 face composition, particularly the impact of surface active organic films, on the condensation and ev

106 Surface-active organics lower the aerosol surface tensio

107 of the SO(4)(*-) + organic reaction include surface-active organosulfates and small organic acids, a

108 nd theoretical evidence for a rate limiting, surface active ozonide formed at the interface.

109 We also report that SapB, like the surface-active peptide streptofactin produced by the spe

110 Of special interest are surface-active peptides that aid in growth and developme

111 bioactive and therapeutic molecules, such as surface-active peptides, which target cellular membranes

112 hyaluronan (HA), proteoglycan 4 (PRG4), and surface-active phospholipids (SAPL) contribute to bounda

113 mucosal hydrophobicity by reacting with the surface-active phospholipids of the colonic mucosa.

114 s on the water surface, we described a novel surface-active plastic material obtained by dissolution

115 functionalized PEG grafts were used as 'cell surface active' polymeric carriers for biotin, hydrazide

116 data indicate that films containing the most surface-active polymers attain adsorptive and dynamic-cy

117 High-molecular weight surface-active polymers that physisorb onto the particle

118 Highest hydration and surface active properties were exhibited at pH 9.0, even

119 f natural compounds present in pulses having surface active properties.

120 nterfacial tension of SSO, due to its strong surface active properties.

121 Surface-active properties including surface tension, int

122 rom the amino terminus (SP-B(1-25)) exhibits surface-active properties similar to those of full-lengt

123 oal and Kaolin as emulsifiers for their good surface-active properties.

124 ttability alteration because the gelatin has surface active property.

125 ty of tyrosol and entailing tyrosol with new surface-active property.

126 and explain how ENaC in epithelia expressing surface-active proteases can appear refractory to solubl

127 n in multiphase coacervates by introducing a surface-active protein, alpha-synuclein (alphaSyn).

128 faces, and a wide range of organisms produce surface-active proteins and peptides that reduce surface

129 A new class of secreted, surface-active proteins called chaplins has been identif

130 his study shows that specifically engineered surface-active proteins can interact with the interface

131 ce patches are also observed in the class of surface-active proteins known as hydrophobins, and are t

132 Hydrophobins are surface-active proteins produced by filamentous fungi.

133 rface, and in both groups of microorganisms, surface-active proteins take part in the initiation of a

134 perfluoro-n-butane microbubbles coated with surface-active proteins that are produced by filamentous

135 complex bacterium requiring the secretion of surface-active proteins to progress through its life cyc

136 Higher-order organisms produce surface-active proteins with a wide variety of functions

137 In a system involving a surface-active reactant, rate augmentation is driven by

138 th cooling and can be inhibited by a dilute, surface-active second component.

139 adsorption due to competitive adsorption of surface active serum proteins.

140 tability shows that the presence of charged, surface-active serum proteins at the alveolar air-liquid

141 competitive adsorption of albumin and other surface-active serum proteins that are present in the lu

142 Our findings highlight an entry route for surface-active silicone-rubber-derived MNPs into both th

143 While nonspecific effects on the surface active site were shown to generally enhance sele

144 Understanding the surface-active site through Density Functional Theory (D

145 formed, yielding a direct measurement of the surface active-site density of a CoPi electrode (11 Co/n

146 n are due to an increase in concentration of surface active sites and a decrease in kinetic and therm

147 damental to the chemistry and engineering of surface active sites but has remained challenging due to

148 lysts, on the other hand, provide accessible surface active sites for hindered olefins but exhibit un

149 s suitable MSI and maximizes the exposure of surface active sites in contrast to the conventional adh

150 ocatalysts in multiobjective optimization of surface active sites including not only their density an

151 the support while maximizing the exposure of surface active sites remains a huge challenge.

152 y combine high macroscopic conductivity with surface active sites, and can be directly used as the el

153 cantly gain from the systematic variation of surface active sites, tested under the very same conditi

154 ion of tailored microenvironments around the surface active sites.

155 s Fermi level, bandgap, charge transport and surface active sites.

156 raphene nucleation density by passivating Cu surface active sites.

157 nhance Pt catalysts' activity without losing surface-active sites by using a Pd-Ru pair.

158 Additionally, the number of surface-active sites of C(24) monolayers are three times

159 lar approach to the question in catalysis by surface-active sites, with as foremost example the elect

160 hly surface active, large aggregates to less surface active, smaller aggregates.

161 canethiolate on gold in aqueous solutions of surface-active sodium n-alkyl sulfates (NaCnSO4) of 6, 8

162 t the ion suppression efficiency of the most surface active species in this study was comparable to t

163 icant part of the electrode surface and near-surface active species.

164 e attributed to rising bubbles that scavenge surface-active species from seawater, while further enri

165 Electrochemical control of the position of surface-active species within aqueous films of liquid su

166 sion between brush-like polymers tethered to surface-active species, we obtained long-range arrays of

167 tor are relevant in a system composed of non-surface-active species.

168 ed fraction of crude petroleum and include a surface-active sub-fraction.

169 erties of the released organic material, the surface active substances (SAS), reduced sulphur species

170 as pH, temperature, or chemical gradients of surface-active substances at solid-liquid interfaces.

171 patially patterned birefringent elements and surface-active topographical features, is selectively tu