ライフサイエンスコーパス: surface activity

1 cturnal and G. tejaswini displayed the least surface activity.

2 e upper layer of a comet is a product of its surface activity.

3 n the most important measure of a molecule's surface activity.

4 nied by up-regulation of TF protein and cell surface activity.

5 KCC2 residue Ser940 is known to regulate its surface activity.

6 ntrations of modified PCs, due to their high surface activity.

7 oid 17mers and demonstrated their biomimetic surface activity.

8 s the effects of altered fusion and lysis on surface activity.

9 ine and fatty acids sodium salt, and greater surface activity.

10 pecially the hydrophilic compound with lower surface activity.

11 as much as a approximately 99% reduction in surface activity.

12 rs are vulnerable to contamination from land-surface activities.

13 in a mixture of two molecules with different surface activities.

14 ps of SP-B and tested for fusion, lytic, and surface activities.

15 that compete for protons but have different surface activities.

16 content of 18.18 mg GalAE/g pectin and good surface activity (46.23 and 49.75 mN/m at 0.1 and 0.5% w

17 stabilization agents, the variation in their surface activity afforded different levels of control ov

18 ing, quantitative PCR, and proliferation and surface activity analysis to study epithelial differenti

19 ith a synthetic lipid mixture, have superior surface activity and biomimetic film morphology in compa

20 Morphogenesis requires coordination of cell surface activity and cytoskeletal architecture.

21 including surface/total thiol (-SH) content, surface activity and denaturation temperature were the k

22 microstructure to achieve a balance between surface activity and durability.

23 ons of these sites had major effects on both surface activity and expression.

24 aggregation mechanism wherein tau's inherent surface activity and favorable interactions with anionic

25 found that both proteins exhibited a similar surface activity and formed stable, rigid monolayers.

26 QS showed a high surface activity and functionality with respect to micel

27 alose and 3% of SMB or B-YL showed excellent surface activity and good short-term stability, thereby

28 d can explain the role of nanodomains in its surface activity and inhibition by an increased choleste

29 a model interface, we characterized Abeta's surface activity and its conformation, assembly, and mor

30 conductance (MscS) and compare them with the surface activity and lateral pressure changes measured i

31 chanisms are closely related to the improved surface activity and mass transfer due to the dual featu

32 Surface activity and mechanical effects were compared fo

33 a mass spectrometric method to characterize surface activity and solute partitioning between bulk li

34 We examined daily surface activity and the role of light-dark cycles as a

35 for army ant species with varying degrees of surface activity and with different body sizes within an

36 quaternary ammonium compounds with different surface activities, and octadecylamine and glycine were

37 portance due to their functional properties, surface activity, and film/shell formability around part

38 ol and electrospray ionization mass spectra, surface activity, and hygroscopicity.

39 Topographic smoothing and passivation of surface activity are observed for the alkylated capillar

40 roteins, yielding characteristic features of surface activity as a function of pH.

41 These studies identify GDE2 control of RECK surface activity as essential for ADAM10 a-secretase fun

42 ecular weight polymers of varying degrees of surface activity, as illustrated for the size-exclusion

43 ant underperformed on initial adsorption and surface activity at captive bubble surfactometry.

44 ty neural recording and visualizing cortical surface activity at spatial and temporal resolutions and

45 roughput method for the screening of protein surface activity at the air/liquid interface as a functi

46 ce active analytes, effectively comprising a surface activity-based separation.

47 t analysis because of its simplicity and the surface-activity-based detection mechanism.

48 Specific measures of surface activity before and after native surfactant was

49 We find ~10% differences in surface activity between diastereomers of the same dimer

50 Hence, PACS-2 sustains ADAM17 cell-surface activity by diverting ADAM17 away from degradati

51 that the inhibitory effect of DeltaG8-P80 on surface activity can be overcome by wild type levels of

52 nterface and the concentration dependence of surface activity coefficients.

53 using the lattice theory expression for the surface activity coefficients.

54 mber of different factors, including analyte surface activity, competition between analytes for charg

55 ased mimics and that there is an increase in surface activity corresponding to increasing helical len

56 eomers of the same dimer, demonstrating that surface activity depends upon backbone stereochemistry.

57 By virtue of their surface activity, detergents have the potential to impac

58 k narrowing is qualitatively explicable by a surface-activity effect invoking large, attractive later

59 Adding alpha1-AT did not affect in vitro surface activity, except for that of the PL mixture.

60 here provides direct information on analyte surface activities free from the complications encounter

61 Results show that amines with higher surface activity have increased propensities for promoti

62 sources but present low solubility and poor surface activity in neutral conditions.

63 Overall dynamic surface activity in oscillating bubble studies was not s

64 s of the more significant effects of analyte surface activity in the gentler zero volt experiment tha

65 When the light-dark cycle was inverted, surface activity in the three species shifted to the dar

66 the peptoid has little effect on biomimetic surface activity, indicating that interactions of the gu

67 ly unfolded which resulted in an increase in surface activity irrespective of the presence of the lip

68 Mobilization of uranium and arsenic by land surface activities is suggested by the higher concentrat

69 r correlation between the retention time and surface activity is also observed within a subcategory o

70 e mimic of SP-C that retains its biophysical surface activity is extraordinarily challenging given th

71 This surface activity is inhibited by addition of micromolar

72 a protein sample as the pH-dependent protein surface activity is measured by a dynamic surface tensio

73 of apo hA-I are very similar as assessed by surface activity, lipid association with palmitoyloleoyl

74 celle polymers which include zero cmc, lower surface activity, low volatility, high electrophoretic m

75 results indicate that SP-B fusion, lytic and surface activities map predominantly to the N-terminal h

76 hy (HPLC) phase partitioning: comparisons of surface activities measured by laser desorption with ret

77 Surface activity measurements of the anion/IPR complex w

78 Furthermore, surface activity measurements with EPL1 revealed that, i

79 rements of our standards align well with the surface activity measurements, with the more surface-act

80 of root elongation relative to the computed surface activities of ions revealed three separate mecha

81 The surface activities of phytosterols were examined using t

82 Here, we compare the surface activities of six different helical peptoid anal

83 utside its natural matrix, it displayed high surface activity of 0.26 units cm(-)(2) in the matrix of

84 , reveal a weak link between k(0) and C(dl) (surface activity of a glassy carbon electrode surface).

85 Surface activity of analytes plays a significant role in

86 yers is unusually facile, as revealed by the surface activity of aqueous liposome dispersions.

87 methylglyoxal reaction mixtures, the lack of surface activity of glyoxal reaction mixtures, and the h

88 In this Research News article the surface activity of GO and how it can be employed to cre

89 Driven by the surface activity of graphene, electrically conductive el

90 n-bonding network of water molecules and the surface activity of ions.

91 nhibitor acting alone was able to reduce the surface activity of LS and CLSE, either raising minimum

92 The concentration-dependent surface activity of other common surfactant inhibitors i

93 lated Rgps are poorly secreted, whereas cell surface activity of phosphorylated Kgp is enhanced.

94 as effective, is shown to interfere with the surface activity of poly-Pt in 0.1 M KOH, consistent wit

95 sis of the simulation data suggests that the surface activity of soft anions is largely a second or t

96 Our method takes advantage of the high surface activity of surfactant analyte to affect the ele

97 The surface activity of surfactant isolated from the SP-A(-/

98 The surface activity of ten atmospherically relevant a-pinen

99 experimentally relevant concentrations, the surface activity of the amyloid-forming peptides leads t

100 nwetting biofilm to form as they control the surface activity of the BslA protein.

101 The surface activity of the colonizing fungal hyphae is exte

102 The surface activity of the complex suggests its possible us

103 n between the observed ESI responses and the surface activity of the complex was found.

104 However, there was a decrease in the surface activity of the conjugates compared to LPI.

105 o La(3+) for undersaturation due to a higher surface activity of the La(3+) complex.

106 tal ion extraction are related to the higher surface activity of the ligand at the phase interface.

107 The surface activity of the model LS films again showed dras

108 l enhancement may be facilitated by the high surface activity of the perfluorinated surfactants on th

109 he absence of a thiol initiator improves the surface activity of the protein at the air:water interfa

110 esponsible for the pronounced improvement in surface activity of the protein on heating.

111 of benzoic oxidation rates suggests that the surface activity of the solids for .OH generation correl

112 anced sensitivity could be attributed to the surface activity of the unsymmetrical dications, which r

113 The surface activity of trileucine was also modeled via a mo

114 Besides the surface activity of trileucine, this low concentration w

115 n and nonprotein inhibitors in impairing the surface activity of whole and extracted calf lung surfac

116 (GPB; which does not facilitate band 3 cell-surface activity or trafficking) to identify candidate r

117 tted seeds did not improve significantly the surface activity parameters.

118 response and greatly under-predicted control surface activity, particularly in the lateral response.

119 ciated with detectable changes in surfactant surface activity, postnatal respiratory function, or sur

120 henomenon as a manifestation of the aberrant surface activities presented by amyloid seeds as nanopar

121 ut its high phenolic content interfered with surface activity resulting in low foaming and emulsifyin

122 MCF10A mammary epithelial cells, suppressed surface activity, retarded cell spreading after plating,

123 . oxyurus, displayed a more or less distinct surface-activity rhythm in all three cycles, and for the

124 We studied surface-activity rhythm of the Indian caecilians Ichthyo

125 uggest that caecilians have a weak circadian surface-activity rhythm, and that the absence of light c

126 nts showed that the AR-BSA complex presented surface activity, since interfacial tension of the water

127 Sub-surface activity such as geologic carbon sequestration (

128 h aromatic side chains shows more biomimetic surface activity than simpler peptoids, and even better

129 -sized water-soluble fractions showed higher surface activity than the larger insoluble ones, and dex

130 s, and dextran conjugates exhibited a higher surface activity than their glucose counterparts.

131 Xylem surfactants showed strong surface activity that reduces surface tension to low val

132 o convert macroclimate data to pika-specific surface activity time in summer across the western Unite

133 and using a mechanistic predictor (predicted surface activity time) in SDMs.

134 The surface activity was found to be highest at pH 4.

135 The surface activity was greater in the C3H mandible than in

136 ed mRNA, cell surface protein, and activity; surface activity was greater than that observed with hyd

137 Surface activity was studied for SP-C and dSP-C combined

138 al stimulation with imagery-induced cortical surface activity, we demonstrate the role of primary mot

139 ific mRNA, TF surface protein levels, and TF surface activity when compared with non-heat-shocked, LP

140 e, indicating a more complicated behavior of surface activity where there is competition among dissol

141 ct in complex mixture analysis, and (2) high surface activity, which eliminates ion suppression effec

142 These molecules show an increase in surface activity, which is normally associated with an i

143 carbon SECM electrode enabled correlation of surface activity with accurate topographical information

144 surfactant with these peptides had excellent surface activity with particle sizes and fine particle f

145 NTAIL showed a significant surface activity, with a higher adsorption capacity at t

146 ique (i.e., structure-dependent) patterns of surface activity, with grains of specific crystallograph

147 s showed that alkylation improved biomimetic surface activities, yielding lower film compressibility