ライフサイエンスコーパス: two dimension

1 tion actin turnover dynamics within cells in two dimensions.

2 n caused by the sampling process between the two dimensions.

3 icles: achiral regular triangles confined to two dimensions.

4 become realizable in Fermi gases confined to two dimensions.

5 ifically the propagation of calcium waves in two dimensions.

6 xtends the conventional lateral flow test to two dimensions.

7 s agree well with Monte Carlo simulations in two dimensions.

8 ttice with the correct hexagonal symmetry in two dimensions.

9 d the strain induced by bending is mapped in two dimensions.

10 urces may be used to extend these studies to two dimensions.

11 otypical interacting spins models in one and two dimensions.

12 trings of electrostatically charged beads in two dimensions.

13 chanism of diffusion-controlled reactions in two dimensions.

14 impedance of the tectorial membrane (TM) in two dimensions.

15 nts of small numbers of neurons connected in two dimensions.

16 ationally intensive numerical integration in two dimensions.

17 ms developed so far restrict fast imaging to two dimensions.

18 The system is restricted to evolve in two dimensions.

19 ising strategy for chemical self-assembly in two dimensions.

20 iral waves as the only recurrent patterns in two dimensions.

21 s by intuition and is practically limited to two dimensions.

22 the mapping of the multidimensional KS onto two dimensions.

23 ntial for coordinated thalamic patterning in two dimensions.

24 lymer-induced depletion attraction forces in two dimensions.

25 important in the early analysis of motion in two dimensions.

26 Musicians recognize pitch as having two dimensions.

27 to investigate melting and suprafluidity in two dimensions.

28 overexpressed, purified and crystallized in two dimensions.

29 pological excitation especially important in two dimensions.

30 distributed regularly or randomly in one or two dimensions.

31 worm-like chain, which is free to deform in two dimensions.

32 general method for crystallizing proteins in two dimensions.

33 sis that separates labeled NotI fragments in two dimensions.

34 end-labeled genomic fragments, separated in two dimensions.

35 lly self-assemble into hexagonal lattices in two dimensions.

36 tuations that influence phase transitions in two dimensions.

37 loped to monitor root system architecture in two dimensions.

38 sional pathways, which prevent conduction in two dimensions.

39 This diversity can be examined in two dimensions.

40 ee plus subchondral changes) and measured in two dimensions.

41 sh used to develop a finite element model in two dimensions.

42 ficiently separated objects, demonstrated in two dimensions.

43 lization of massive relativistic fermions in two dimensions.

44 ons, identically reproduces such equation in two dimensions.

45 ssembly that extends macroscopically in only two dimensions.

46 becomes a strong promoter of cooperation in two dimensions.

47 -standing nanosheets via peptide assembly in two dimensions.

48 septin complexes of variable size diffuse in two dimensions.

49 ayered packing of collagen triple helices in two dimensions.

50 NAs or RNAs designed to polymerize in one or two dimensions.

51 itro, which constrains the motors to move in two dimensions.

52 or the reversible ligand-binding reaction in two dimensions.

53 ective intermolecular electronic coupling in two-dimensions.

54 s of elastic turbulence have been limited to two-dimensions.

55 or example, arboreal and pelagic zones) than two dimensions (2D) (for example, terrestrial and benthi

56 erostructures can be induced and confined to two dimensions (2D) by controlling the structural parame

57 tructures in which the size is controlled in two dimensions (2D) has remained a challenge.

58 It has been studied extensively in two dimensions (2D) using frontoparallel stimuli, but in

59 with the viability and migration of cells in two dimensions (2D).

60 icts that the metallic state cannot exist in two dimensions (2D).

61 ensities while undergoing Brownian motion in two dimensions (2D).

62 already yielded substantial new insights in two dimensions (2D).

63 his origin in early S phase, we examined the two-dimension (2D) gel patterns of replication intermedi

64 by extending the conformational analysis to two dimensions, a 2D conformationally sampled pharmacoph

65 Because of confinement in two dimensions, a substantial amount of FRET is generate

66 ch tailored arrays of ions are positioned in two dimensions above a microfabricated surface, will lea

67 hat converts three-dimensional affinities to two dimensions, accounting directly for the structure an

68 les as well as a protein were obtained, with two dimensions acquired at vastly different magnetic fie

69 The restriction of the arrays to two dimensions allowed us to deduce the spatial relation

70 ed for patterning functional biomolecules in two dimensions, allowing enzymes, antibodies, and other

71 We propose two dimensions along which the services may be categoriz

72 Increases along these two dimensions also were correlated with increasing carb

73 wnian diffusion of cell surface receptors in two dimensions, an interpretation that requires that a s

74 nal channel system with 12-ring apertures in two dimensions and 8-ring apertures in the third.

75 h many interconnected parameters between the two dimensions and additional problems like peak wraparo

76 chemical control has largely been limited to two dimensions and by the need for using complex approac

77 e of very few proteins to be crystallized in two dimensions and characterized in a fully hydrated sta

78 d ellipsoidal particles in water confined to two dimensions and elucidated the effects of coupling be

79 MFI) that prevents media leakage between the two dimensions and enables facile loading of discontinuo

80 When confined to two dimensions and exposed to a strong magnetic field, e

81 of gene expression profiles as distances in two dimensions and gene density in the third dimension.

82 ults hold for rich, complex wave patterns in two dimensions and over several orders of magnitude in w

83 threads capped with hydrogen, crystalline in two dimensions and short-range ordered in the third.

84 When electrons are confined in two dimensions and subject to strong magnetic fields, th

85 alline domains of up to half a millimetre in two dimensions and thickness of up to several microns fr

86 application has been effectively limited to two dimensions and thin samples.

87 cle motion only relative to their neighbors, two dimensions and three dimensions have similar behavio

88 We present a shape-recovery technique in two dimensions and three dimensions with specific applic

89 concentrations and find differences between two dimensions and three dimensions.

90 n of protein three-dimensional structures in two dimensions, and are used for understanding and manua

91 s-correlation, mutual information in one and two dimensions, and phase correlation in both broad and

92 ces is essentially one of crystallization in two dimensions, and the structures that result depend on

93 exist that give submicrometre resolution in two dimensions; and techniques are available for obtaini

94 lution of and good orthogonality between the two dimensions are needed.

95 periments have disagreed about whether these two dimensions are processed independently from each oth

96 and spatial noise thereby eliminating these two dimensions as cues.

97 Cells have been modeled as simple shapes in two dimensions as well as more complex geometries attemp

98 e of a blocked peptide unit can be mapped in two dimensions, as shown by Ramachandran, Sasisekharan,

99 ions, triple points, and quadruple points in two dimensions, as well as triple lines, etc., in higher

100 A second population encodes the target in two dimensions, azimuth and elevation, and does not show

101 ysis, suggesting a distributed coding of the two dimensions bilaterally in human auditory cortex.

102 r dimension), or to switch attention between two dimensions but make an overt response only to target

103 that of the translational relaxation time in two dimensions but not in three dimensions.

104 d layered silicate with short-range order in two dimensions but without long-range periodicity in thr

105 mensions by surface plasmon resonance and in two dimensions by a micropipette adhesion frequency assa

106 EmrE was purified and crystallized in two dimensions by reconstitution with dimyristoylphospha

107 o-dimensional colonies, and linear fronts in two dimensions-by employing analogies to the directed-pe

108 ce traveled by these silica nanoparticles in two dimensions can be an overestimation when compared wi

109 show that appropriately sensitized drives in two dimensions can be stopped, even by imperfect barrier

110 demonstrate that macromolecular crowding in two dimensions can play a significant role in shaping th

111 The stimuli were grouped along two dimensions (color: red square or blue square; shape:

112 column dimensions and flow rates because the two dimensions constrain each other.

113 the lack of broken translational symmetry in two dimensions-doubting the existence of 2D crystals-and

114 ions for the evolution of drug resistance in two dimensions-drug concentration and drug type.

115 ntial slices, excitation waves propagated in two dimensions during cholinergic oscillations.

116 ed on information based on data collected in two dimensions: either histological sections imaged by l

117 In two dimensions, electrons moving through a magnetic fiel

118 In one case, LCF revealed two dimensions essential to explain the effects of the N

119 They are based on two dimension estimation techniques sliced average varia

120 In two dimensions, even ordered patterns can be surprisingl

121 The chiral p(x)+ip(y)-wave superconductor in two-dimensions exhibiting Majorana modes provides the si

122 Psycho-oncology has two dimensions: first, the study of the psychological re

123 e fitting approaches, the data is treated in two dimensions, fitting all the data across the entire w

124 vinyl iodides to create 13 pools indexed in two dimensions for a total of 42 compounds.

125 biologists, and also provides a metaphor in two dimensions for local and global DNA sequence compari

126 trategies for minimizing MscS aggregation in two dimensions for spectroscopic analyses of gating have

127 the proliferation of topological defects in two dimensions, governs seemingly remote physical system

128 ol the placement of nanoparticles in one and two dimensions have indeed been demonstrated.

129 lymers that form a tiling network in exactly two dimensions-have potential for use in nanoporous memb

130 curs at any single ISX element can spread in two dimensions: horizontally across insertion sites by n

131 plays in these dynamics along the following two dimensions: (i) stability vs. flexibility and (ii) c

132 We simulated single-particle diffusion in two dimensions in an arbitrary potential, V(r), based on

133 ap multi-dimensional gene expression data to two dimensions in an implementation called VizStruct.

134 model foraging animals as "agents" moving in two dimensions in repeated and successive sequences of h

135 waves to focus and orient red blood cells in two dimensions in the channel center.

136 ee that representing navigation in more than two dimensions increases computational load and suggest

137 sionality' that confines diffusion to one or two dimensions instead of three.

138 When confined to two dimensions, interacting many-body systems show even

139 The two dimensions involve the use of liquid isoelectric foc

140 trongly suggest that the glass transition in two dimensions is different than in three dimensions.

141 nefficiency or cross correlation between the two dimensions is minimized.

142 not linear, an extension of the approach to two dimensions is necessary.

143 The reaction of molecules confined to two dimensions is of interest in cell adhesion, specific

144 It advances research along two dimensions: it builds on collective matrix factoriza

145 cinating possibilities offered by defects in two dimensions, known as topological defects, to control

146 In particular it is found that in two dimensions "life" (the localized proliferating phase

147 undergoing a transition from three to quasi-two dimension, light amplification features (e.g., lasin

148 tical ideology is best explained by at least two dimensions linked to economic and social ideology.

149 A two-dimension matrix of pH and denaturing buffer conditi

150 These two dimensions may contribute to symptomatology differen

151 between these different structural phases in two dimensions may provide a means of switching material

152 These are two dimensions, measurable using the Empathy Quotient (E

153 Two-dimension NMR spectra analysis demonstrated that a t

154 To accomplish this, two dimensions of chromatography are used in sequence to

155 ions of neuronal responses smoothly onto the two dimensions of cortex.

156 ned for the Arabidopsis root; however, these two dimensions of data have not been integrated thorough

157 Two dimensions of decision making that substantially aff

158 nsider the inverse boundary value problem in two dimensions of determining the coefficients of a gene

159 from the 1980s to the 2000s across Europe by two dimensions of functional trait variation: the first

160 on of liability but rather are influenced by two dimensions of genetic risk reflecting aggressive-dis

161 own mass spectrometric approach coupled with two dimensions of liquid chromatography.

162 Factor analysis revealed two dimensions of mind perception, Experience (for examp

163 Findings suggest that the two dimensions of musical pitch, pitch class and pitch h

164 e separated soluble proteins of E. coli over two dimensions of native-state high-performance liquid c

165 arating and quantifying the effects of these two dimensions of physical activity should use well-vali

166 eneity of patients within trials along these two dimensions of risk may make overall trial results di

167 l structure of selected analytes between the two dimensions of separation.

168 Information was collected on two dimensions of social ties, structural (network) dime

169 face diffusion, rather than occurring in the two dimensions of the interface, is dominated by a three

170 Of the eight components and two dimensions of the SF36, the Mental Health dimension

171 2D) manifold: grid cells differed only along two dimensions of their responses and otherwise were nea

172 silon RI-bound monoclonal IgE yields, in the two-dimensions of the cells' membranes, a situation wher

173 When spatial confinement in two dimensions on a solid substrate is employed, this ap

174 Membrane fragments oriented in two dimensions on thin mylar films showed that the g ten

175 ces BV's search space for prey from three to two dimensions (on surfaces) even down to a single dimen

176 ical predictions for the planar (infinite in two dimensions) one-component plasma.

177 and ink-jet printing are either confined to two dimensions or beset by wetting and spreading problem

178 rent tracking methods are either confined to two dimensions or limited to an interrogation depth of a

179 ar dominance, and retinotopy that, to fit in two dimensions, organize at separate but overlapping sca

180 eezer to confine self-propelled particles in two dimensions over distances large compared with the sw

181 We find that, in two dimensions, particles can undergo large displacement

182 bel DNA fragments before their separation in two dimensions provides a quantitative assessment of met

183 molecule, the reactand diffusion confined to two dimensions results in a clean product of ultralong w

184 Reduced screening in two dimensions results in markedly enhanced electron-ele

185 Computer simulations in two dimensions returned comparable results in both the f

186 three pools were electrophoresed together on two-dimension SDS gels, and protein differential express

187 ase crystals with electronic couplings along two dimensions show a maximum mobility up to 26.8 cm(2)

188 The two dimensions (similarity, closeness) were crossed in e

189 The simulations have been performed in two dimensions so that bending is the only mode of defor

190 approach, CID product ions are dispersed in two dimensions, specifically size-to-charge (IM) and mas

191 ropagate waves with infinite range, while in two dimensions, spiral waves can be generated.

192 ng vowels as vice versa, suggesting that the two dimensions strongly interact.

193 ng donors and acceptors extending in one and two dimensions sustained by an intricate network of hydr

194 rather than solely on quantum confinement in two-dimension systems.

195 The reason is that in two dimensions the clusters are fragmented by the moveme

196 To calculate stress maps in two dimensions, the cell sheet was assumed to behave lik

197 intessential collective quantum behaviour in two dimensions, the fractional quantum Hall effect (FQHE

198 The informational entropy of one and two dimensions, the mutual information, the synentropy o

199 nnel center utilizing acoustic resonances in two dimensions, the orientation can be controlled by inc

200 In two dimensions, the problem is not as well understood.

201 ern' and 'protein' blotting and combines, in two dimensions, the resolving power of a denaturing prot

202 If a similar description is correct for two dimensions, then the holons will attract in a p-wave

203 unction derived from the overlap of peaks in two dimensions, thereby combining the specificity of two

204 in measuring spectral variations over one or two dimensions, these dimensions being time, temperature

205 xtends the conventional lateral flow test to two dimensions; this allows incorporation of multistep c

206 g the theoretical beads-on-a-string model in two dimensions; this system makes it possible to test hy

207 conventional electropherogram is spread into two dimensions through cross-correlation analysis of flu

208 a chemical change is instituted between the two dimensions to alter the relative retentions of compo

209 is designed at the intersection between the two dimensions to continuously inject SDS into the gel,

210 CellSort can take advantage of more than two dimensions to enhance the ability to distinguish bet

211 Dimensional tunability from two dimensions to one dimension is demonstrated for the

212 chromatography (RP-LC) were employed in the two dimensions to provide complementary information in t

213 We use a correlated random walk model in two dimensions to simulate the movement of the slug para

214 There are two dimensions to this difficulty.

215 red, with extension of linear conjugation in two-dimensions to over twice that of any previously repo

216 slation stage, and the tissue was scanned in two dimensions under a focused mid-infrared (IR) laser b

217 Electrons moving in two dimensions under the influence of strong magnetic fi

218 lar momentum by a gas of ultracold bosons in two dimensions using a standard rotation procedure.

219 arranging single-walled carbon nanotubes in two dimensions using DNA origami-a technique in which a

220 is, we simulated meiotic spindle assembly in two dimensions using dynamic MTs, a MT cross-linking for

221 ximately 1 mum/min, comparable to results in two dimensions using fluorescent speckle microscopy.

222 Solving the equations in two dimensions using realistic parameters, the model rep

223 nique that reduces multi-dimensional data to two dimensions using the complex-valued harmonics of the

224 rotein HupR in the unphosphorylated state in two dimensions using the lipid monolayer technique.

225 kings of monodisperse circular hard-disks in two dimensions using the Torquato-Jiao sequential linear

226 lusive because it has been studied mainly in two dimensions using thymic sections.

227 ealized models (typically realised in one or two dimensions via a set of coupled partial differential

228 Chips can be tiled in two dimensions via an interchip communication interface,

229 scattering, the orientation angle of GNRs in two-dimensions was resolved and provided more elaborate

230 e, by implementing a simple model in one and two dimensions, we compare and contrast receptor-mediate

231 Adapting our model to wall-bound cells in two dimensions, we find that as wall friction is reduced

232 e worm-like chain model for applicability to two dimensions, we have confirmed that under the conditi

233 OCT image analysis, the IOL/PC distances in two dimensions were measured.

234 trix patterns that appeared to form loops in two dimensions were shown to represent thin wrappings ar

235 e crystals (i) decrease volume and expand in two dimensions when stretched in a particular direction

236 nsion (e.g., red squares), to switch between two dimensions (where the target on the attended dimensi

237 Participants viewed objects that differed on two dimensions: where the object is typically found (in

238 pproaching the glass transition is absent in two dimensions, whereas it is very pronounced in three d

239 r in the lab is almost exclusively scored in two dimensions, whereby zebrafish are recorded using a s

240 om permanent magnets confine the particle in two dimensions, while confinement in the third dimension

241 e microscopy to study single dislocations in two dimensions, while transmission electron microscopy (

242 elongated in the distal direction, curved in two dimensions with an oval base and a round tip.

243 nt in the conceptual framework to consist of two dimensions with five domains: child dimensions (symp

244 vivo-labelled phosphopeptides co-migrated in two dimensions with peptides labelled in vitro within th

245 to map high-dimensional cytometry data onto two dimensions, yet conserve the high-dimensional struct