ライフサイエンスコーパス: in confined

1 In confined 3D microenvironments, FMN2 promotes cell sur

2 Cell migration in confined 3D tissue microenvironments is critical for

3 ew studies on asymmetric reactions catalyzed in confined achiral cavities.

4 and improves understanding of ATPS evolution in confined and flowing settings important in biology an

5 ed to actuate and navigate these microrobots in confined and hard-to-reach body location areas in a m

6 magnetically driven navigational locomotion in confined and unstructured space.

7 led basins, overpressurized fluids circulate in confined aquifers below ice, and extensive preglacial

8 tuned for numerous vapour sensing scenarios in confined areas or as individual nodes for distributed

9 c explosion could be particularly beneficial in confined biological and nanoscale environments.

10 eir potential for long-term, active delivery in confined biological environments.

11 rtial desolvation when cations were adsorbed in confined carbon pores.

12 nous, which facilitate mitotic cell rounding in confined cell conditions, are essential for efficient

13 cular-level investigation of enzyme behavior in confined, cell-free environments is essential to unde

14 HMGB2 is upregulated in confined cells, and quantitative modelling revealed t

15 ant protrusions and abnormal migration speed in confined channels concomitant with altered actin poly

16 r than the larger one with a symmetric shape in confined channels of zeolite.

17 nce, while the latter mechanism is prominent in confined channels where external hydraulic resistance

18 very general properties of crowded dynamics in confined channels, pertaining to a broad class of sel

19 In confined chiral nematic liquid crystals, this self-as

20 In confined circular geometries, we find that specific p

21 ons >= 0.7 pCi/L occurred almost exclusively in confined Coastal Plain aquifers where old (low percen

22 ion that resemble those found experimentally in confined colloidal glasses.

23 is in serum, accurate temperature assessment in confined compartments and high throughput screening o

24 by injection of one reactant into the other in confined conditions feature a wealth of new patterns

25 In confined conditions where films were prepared to a th

26 chanism for overcoming motility restrictions in confined confluent cell monolayers.

27 gram that predicts a wrinkle-scar transition in confined crystalline sheets at a critical value of th

28 Although the interest in confined crystallization, nanosized devices, and poro

29 stnatal week, synapses assemble specifically in confined dendritic segments, whereas other segments a

30 that GPVI dimers preferentially concentrate in confined domains and, if diffusivity within domains i

31 icle facilitated by evaporation-condensation in confined domains.

32 ell-mediated reactions or specific catalysts in confined emulsions.

33 en-bonding structure on interfacial phase or in confined environment have drawn wide attentions.

34 be useful for studying chemical reactivities in confined environments and for synthesizing molecules

35 twork promotes LBBM of amoeboid cancer cells in confined environments and that vimentin bundling pert

36 Chemical reactions in confined environments are important in areas as diver

37 the growth and division of individual cells in confined environments are ubiquitous, yet little work

38 is possible to differentiate slow diffusion in confined environments caused by different mechanisms.

39 utrophils and dendritic cells when migrating in confined environments have been shown to actuate a di

40 llenge because such crystallization occuring in confined environments is difficult to observe directl

41 of polymorphs in recent years, polymorphism in confined environments is still poorly understood, par

42 he implications of these results for folding in confined environments such as the chaperonin cavity i

43 ancer progression, which usually takes place in confined environments that favour adhesion-independen

44 ue because they house seriously ill patients in confined environments where antibiotic use is extreme

45 picking up objects, facilitating locomotion in confined environments, and attaching to surfaces duri

46 (plane group p6mm) mesoporous carbon phases in confined environments, as thin films and within the p

47 enable fundamental studies of mass transport in confined environments, as well as more energy-efficie

48 Electrochemistry in confined environments, that is, involving experimenta

49 we report the ability of soft NPs to shrink in confined environments, therefore boosting their diffu

50 To study slow mass transport in confined environments, we developed a three-dimension

51 aviors that emerge for bacterial populations in confined environments, with implications for understa

52 lization at complex interfaces, particularly in confined environments.

53 n on overall lymphocyte trafficking patterns in confined environments.

54 s utilizing a motor-clutch system to migrate in confined environments.

55 ects of self-propulsion which were amplified in confined environments.

56 drive amoeboid and not mesenchymal migration in confined environments.

57 hesis of precision self-assembled structures in confined environments.

58 es and, more generally, of quantum phenomena in confined environments.

59 to systematically study mechanotransduction in confined environments.

60 speaking causes airborne virus transmission in confined environments.

61 We found that inducible induction of HRAS in confined epithelial monolayers on soft substrates dri

62 e describe a form of collective oscillations in confined epithelial tissues in which the oscillatory

63 a basic configuration of polarization field in confined ferroelectric nanoparticles.

64 ic storage roots than nontransgenic controls in confined field trials in Puerto Rico.

65 tiation sites, demonstrating that most occur in confined genomic regions.

66 Quantum systems in confined geometries are host to novel physical phenom

67 dimensional (2D) experiments and simulations in confined geometries demonstrate that as the areal pac

68 forces involved and predicting flow patterns in confined geometries is lacking.

69 e-diffusive transport in the bulk region and in confined geometries of reconstructed and computer-gen

70 well-specified control of ionic interactions in confined geometries profoundly influences the transpo

71 to-optical effects can therefore be realized in confined geometries using few or even single impurity

72 Condensation of water vapor in confined geometries, known as capillary condensation,

73 ans of controlling light-matter interactions in confined geometries, resulting in a wide range of app

74 the physical basis for efficient navigation in confined geometries, we observe the motion of multice

75 ly to be important whenever reactions happen in confined geometries.

76 s was analogous to that of colloidal systems in confined geometries.

77 in micropatterned human 'gastruloids' grown in confined geometry show that aneuploid cells are deple

78 imental test bed for diffusion of 2D objects in confined geometry.

79 Phospholipid contents was lower in confined goats, with little effect for processing.

80 otions and accelerate the hydration dynamics in confined groove sites.

81 toward controlled delivery of drug payloads in confined, hard-to-reach locations, with potential in

82 devices is the skyrmions' magnetic stability in confined helimagnetic nanostructures.

83 espectively, with losses occurring primarily in confined, higher-gradient streams that provide only m

84 s, and pressure solution and crystallization in confined hydrosystems.

85 nt and specific labelling of target proteins in confined intercellular and organotypic tissues, with

86 -solid transitions (LLST) are known to occur in confined liquids, exist in supercooled liquids and em

87 al observations of unexpected shear rigidity in confined liquids, on very low frequency scales on the

88 explore the transport of ions and molecules in confined liquids.

89 s during gating, probes the environment even in confined locations, and introduces minimal interferen

90 l nations around the world, and more so: (a) in confined maritime areas with significant marine traff

91 s approach to the investigation of reactions in confined media.

92 We report that deposition in confined micro-/nanoreactors overcomes this difficult

93 ical patterns, and collective cell alignment in confined microcultures.

94 itial and simplified collective state) forms in confined microenvironments.

95 vents damage to the nucleus during migration in confined microenvironments.

96 ation is a major mechanism of cell migration in confined microenvironments.

97 tion polymerization for surface modification in confined microgeometries with both nonfunctionalized

98 They spend much of their time in confined motion ( approximately 110 nm diameter), but

99 with fluorescent dyes or sQDs were diffusing in confined nanodomains in PSDs, which were stable for 1

100 ci, and we show that the looping time occurs in confined nanometer regions.

101 fies the transport and adsorption of nitrate in confined nanopores with highly exposed single-atom ac

102 trodes, including the double layer formation in confined nanopores.

103 tion of the behaviours of different analytes in confined nanoscale spaces, and quantitative analysis

104 ity to incorporate different charged species in confined nanospace by ion-exchange.

105 In this respect, catalysis in confined nanospaces using such supramolecular cages h

106 g chemical reactivity and material structure in confined optical environments is on the rise, and yet

107 sing model to capture structural differences in confined physical networks.

108 abundance of knots in the globule phase and in confined polymers, and their rarity in the swollen ph

109 rgely explored; however, solid CH(4) storage in confined pores of MOFs in the form of hydrates is yet

110 chemistry and reactivity of small molecules in confined pores using advanced diffraction and spectro

111 known about chain and macromolecule mobility in confined pores.

112 Scotland prohibited smoking in confined public places on March 26, 2006.

113 namic properties and phase behavior of water in confined regions can vary significantly from that obs

114 f fractured cement, was found to be enhanced in confined regions having limited access to CO2.

115 d versatile tool to measure ionic activities in confined samples.

116 specially important for the remaining waters in confined sites at the protein interface.

117 essfully works as a vehicle to deliver cells in confined space by virtue of the 3D porous networked s

118 loped toward a robust platform for synthesis in confined space employing fully programmable nanoreact

119 tion) in a one- vs. two-rescuer scenario and in confined space vs. open space in a randomized order u

120 and for single site photocatalytic reactions in confined space.

121 -dimensional (2D) substrata and individually in confined spaces and invasion in 3D matrices.

122 ls or aggregates to build complex constructs in confined spaces and may enable various biomedical app

123 in Au nanorods through seed-mediated growth in confined spaces and report their thermochromic respon

124 id leader bleb-based migration (LBBM) occurs in confined spaces and vimentin is known to strongly inf

125 s of our results for the folding of proteins in confined spaces are outlined.

126 The permeated gas is accumulated in confined spaces behind the respective membranes.

127 one-dimensional nanotubes, organic reactions in confined spaces between two-dimensional materials hav

128 drive voltage, and iii) embedded electrodes in confined spaces for potential diagnostic applications

129 ers with remote magnetic-responsive motility in confined spaces have been developed.

130 Our findings indicate that motility in confined spaces imposes high energetic demands on mig

131 is notoriously difficult to probe reactions in confined spaces in real time.

132 tinuing expansion of NSC-derived cell masses in confined spaces in the spinal cord and brain could pr

133 Two-phase (liquid, vapor) flow in confined spaces is fundamentally interesting and prac

134 Crystals are self-assembled reproducibly in confined spaces of 100 nm diameter with pitch down to

135 Autonomous flight in confined spaces presents great scientific and technic

136 tion in tight spaces, and chemical reactions in confined spaces require an understanding of water-med

137 cts of viscogens on macromolecular processes in confined spaces should be similarly informative in ot

138 In confined spaces such as capsules and the active sites

139 ted carbon dioxide (CO(2) ) levels can occur in confined spaces such as the International Space Stati

140 platform which is important for ion sensing in confined spaces such as the medium surrounding cell c

141 iotemporal evolution of Mn biomineralization in confined spaces that experience simultaneous Mn(II) d

142 nalysis of a wide range of velocity profiles in confined spaces that measure a few micrometers in dim

143 mulation of RNA and ribonucleoproteins (RNP) in confined spaces was validated experimentally and nume

144 nts are inhabited by mammals, such as living in confined spaces where oxygen levels are likely to be

145 on 2D surfaces, Rho is critical for movement in confined spaces, but is largely redundant for motilit

146 es is a natural tendency of microbes growing in confined spaces, contributing to microbial pathogenes

147 flocculation, hindered behavior of particles in confined spaces, jamming and dispersion in flow.

148 number of situations such as protein folding in confined spaces, lubrication in tight spaces, and che

149 action crawlers demonstrate effective motion in confined spaces, miniaturization is challenging becau

150 ptake by the migrating cells, cell migration in confined spaces, regulation of the attractant distrib

151 Water exhibits remarkable properties in confined spaces, such as nanometer-sized droplets whe

152 a prospective adsorbent for humidity control in confined spaces, such as space shuttles, aircraft cab

153 Catalysis in confined spaces, such as those provided by supramolec

154 To define the limits of body compression in confined spaces, we conducted dynamic compressive cyc

155 lowing increasingly delicate maneuverability in confined spaces, with excellent stone clearance and e

156 itative paradigm for facile proton transport in confined spaces-a CV is derived in this work from gra

157 uggest new ways by which to affect reactions in confined spaces.

158 ntly less is known about its effect on water in confined spaces.

159 associated with ligand-receptor interactions in confined spaces.

160 for those performing high-pressure cleaning in confined spaces.

161 ter-scale soft capsules for sampling liquids in confined spaces.

162 al for human exposure to high concentrations in confined spaces.

163 synthesis and hierarchical self-organization in confined spaces.

164 e embedding of physical networks, especially in confined spaces.

165 energetics during migration decision-making in confined spaces.

166 to understand and predict similar processes in confined spaces.

167 ggregate formation and transport of asbestos in confined spaces.

168 atory tract, intranasal inoculation resulted in confined spread to regions corresponding to olfactory

169 Domain-wall propagation in confined structures is of basic interest and critical

170 he recent discovery of a spiral-vortex state in confined suspensions of Bacillus subtilis to study th

171 and transport of colloids and microorganisms in confined systems as well as unsaturated porous media.

172 ered composite fluids are sometimes observed in confined systems of rather chaotic initial states, fo

173 he investigation of suspension flow dynamics in confined systems where clogs are formed both by sievi

174 an important morphology-determining variable in confined systems, and, in biological membranes, it ma

175 l-free hemoglobin (Hb) in the circulation or in confined tissue compartments such as the subarachnoid

176 rstanding of the origin of coherent rotation in confined tissues, and extracts useful insights into t

177 nal MSD analysis to measure diffusive motion in confined trajectories; and spline-curve spatial analy

178 ount for the proximity FRET effect occurring in confined two-dimensional environments.

179 LC state due to assembly of the chromophore in confined two-dimensional layers.

180 use of antibiotics, concentration of animals in confined units, and long distances and frequent movem

181 ids duplexes unzipping kinetics variability, in confined, variable geometries.

182 Performing reactions in confined volume systems derived from mass spectrometr

183 ng finding that reaction acceleration occurs in confined-volume solutions sets up an apparent conundr

184 thods applied to study accelerated reactions in confined-volume, high-surface-area solutions.

185 actors are noted as is reaction acceleration in confined volumes and possible future scale-up.

186 (instrumentally induced) redox cycling plays in confined volumes of enclosed microchannels.

187 e laser field over large distances in vacuum in confined volumes that trap and accelerate them within

188 crofluidic device that allows crystal growth in confined volumes to be studied in situ is used to pro

189 ability to create rapid tissue modification in confined volumes without directly contacting the myoc

190 s of random knotting of equilateral polygons in confined volumes.

191 curious chemistry and reaction acceleration in confined volumes.

192 lysis of complex bacterial self-organization in confined volumes.

193 This difference in confined water dynamics likely arises from the signif

194 that NaCl or LiCl, initially fully dissolved in confined water, can spontaneously nucleate into 2D mo

195 ted minimum in the bulk is completely absent in confined water, independent of the droplet size since

196 as focused on the mechanism of this reaction in confined-water media and the extent of solvation need

197 We showed that islet transplantation in confined well-vascularized sites like the epididymal

198 Blinking, previously seen in confined zero- and one-dimensional systems has recent