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1 of different experimental assays (in two and three dimensions).
2 ps in two dimensions and 230 space groups in three dimensions.
3 r the investigation of biological systems in three dimensions.
4 it is notoriously difficult to conduct it in three dimensions.
5 alize optical absorption contrast in vivo in three dimensions.
6 orks often extend hundreds of micrometers in three dimensions.
7 than 75% of cases and can span a surface or three dimensions.
8 structured droplet of chiral active fluid in three dimensions.
9 nanoparticle encapsulated inside the cage in three dimensions.
10 elative to their neighbors, in contrast with three dimensions.
11 ugh providing additional hydraulic routes in three dimensions.
12 ntly deposit and organize the ECM in two and three dimensions.
13 ating from adjacent L5B columns in the BC in three dimensions.
14 find differences between two dimensions and three dimensions.
15 track complex pseudopods of cells moving in three dimensions.
16 ed at nanometre-scale spatial resolutions in three dimensions.
17 rized stage system to cancel brain motion in three dimensions.
18 terize, and manipulate neuronal ensembles in three dimensions.
19 f tissue can specify the shape it assumes in three dimensions.
20 chromosome axes to high spatial precision in three dimensions.
21 ed with histones and DNA-binding proteins in three dimensions.
22 lows based on the NCCM model both in two and three dimensions.
23 complex patterns of movement that evolve in three dimensions.
24 and establishing directional interactions in three dimensions.
25 at cell-scale resolution over millimeters in three dimensions.
26 hile also describing nuclear position in all three dimensions.
27 ol the structure of silk proteins in two and three dimensions.
28 rete stochastic biochemical systems in up to three dimensions.
29 meras enabled marker motion to be tracked in three dimensions.
30 h overlapping and nonoverlapping clusters in three dimensions.
31 t of plane, with long correlation lengths in three dimensions.
32 d correlation of these nanoparticle doses in three dimensions.
33 ar shapes and followed their displacement in three dimensions.
34 ty of interpreter services as variable along three dimensions.
35 mic structure can be routinely determined in three dimensions.
36 ition in two dimensions is different than in three dimensions.
37 ng can provide a similar performance for all three dimensions.
38 variety of photonic topological phenomena in three dimensions.
39 l forces and the deformation of the organ in three dimensions.
40 object to be reconstructed and visualised in three dimensions.
41 elaxation time are very different in two and three dimensions.
42 ish (Danio rerio) neuromuscular junctions in three dimensions.
43 dimensions, whereas it is very pronounced in three dimensions.
44 linking (gamma-CD)6 body-centered cuboids in three dimensions.
45 , actin, and the Golgi apparatus dynamics in three dimensions.
46 ribed by the nearest-neighbor Ising model in three dimensions.
47 ices and functional motifs are positioned in three dimensions.
48 nce for the existence of a marginal glass in three dimensions.
49 onstruct the efferent pathways of the LHb in three dimensions.
50 modeling of heat transfer and fluid flow in three dimensions.
51 ements with the surface plasmon resonance in three dimensions.
52 sensor that is able to measure the field in three dimensions.
53 d to have similar characteristics in two and three dimensions.
54 is label-free and allows imaging in two and three dimensions.
55 on yields images with high resolution in all three dimensions.
56 atment affects melanoma cell MMP activity in three dimensions.
57 relaxation time in two dimensions but not in three dimensions.
58 rstand how OECs interact with other cells in three dimensions.
59 hting the importance of studying a system in three dimensions.
60 pulate microscopic objects, contact-free, in three dimensions.
61 high modal purity, which are well defined in three dimensions.
62 ecovered, each of which has been prepared in three dimensions.
63 can nondestructively probe these changes in three dimensions.
64 optical single molecule tracking in two and three dimensions.
65 reement with our predictions in both two and three dimensions.
66 mage the diffusion layers of UMEs in two and three dimensions.
67 ing multiple materials, known as bioinks, in three dimensions.
68 ctive niche signaling regulates cell fate in three dimensions.
69 sicles, and crystallization of tetrahedra in three dimensions.
70 caled down to less than 10 nm and stacked in three dimensions.
71 aggregates of GFP-conjugated Tau protein in three dimensions.
72 erences in the ordering scenarios in two and three dimensions.
73 egment cells in two dimensions and nuclei in three dimensions.
74 high-speed biological dynamics unfolding in three dimensions.
75 to study viscoelastic relaxation in two and three dimensions.
76 locate cleavage sites by searching freely in three dimensions.
77 al insulators is a spatial lattice in two or three dimensions.
78 s jointly guided by graded changes along all three dimensions.
79 of incidence and polarizations of light, in three dimensions.
80 e-relative correlation functions) in two and three dimensions.
81 ining data, an arduous task, particularly in three dimensions.
82 atterns (Dirichlet tessellations) in two and three dimensions.
83 to control the placement of cells in two and three dimensions.
84 can be reconstructed and observed in two and three dimensions.
85 erning cell types and scaffold properties in three dimensions.
86 obes for understanding disease mechanisms in three dimensions.
87 t lines-dislocation loops-that are unique to three dimensions.
88 ular imaging with cellular resolution in all three dimensions.
89 he individual localisation precisions in all three dimensions.
90 through {W-O-TM-O-W} bridges in one, two, or three dimensions.
91 framework to simulate zebrafish swimming in three dimensions.
92 ogically, compositionally, and chemically in three-dimensions.
93 r features with unprecedented detail in full three-dimensions.
94 than two, creating a synchronised motion in three-dimensions.
95 erior image clarity and fidelity in two- and three-dimensions.
96 anical feedback during morphing of tissue in three dimensions?
97 folk knowledge about animals is dominated by three dimensions: (1) level of cognitive complexity or "
98 lution of precipitates was imaged in two and three dimensions (2-, 3-D) at selected times using optic
100 al model of intracellular calcium cycling in three-dimensions (3-D), which incorporates high resoluti
103 d stem cells (ADSCs), were differentiated in three dimensions (3D) into chondrogenic and osteogenic s
104 ying principles for hydrodynamic focusing in three dimensions (3D) using miscible fluids and the appl
109 Here we image the developing mouse lung in three-dimensions (3D) and show that two nested developme
110 tomography (CT) has been used to observe in three-dimensions (3D) the dynamic process of crack growt
115 to image the activity of neural circuits in three dimensions across multiple areas in the brain.
116 regions of efficient cathodoluminescence in three dimensions across visible and near-infrared wavele
117 ions and fractionalization of excitations in three dimensions all stem from a simple classical Hamilt
118 ated method for full organ reconstruction in three dimensions, allowing visualization of intact mouse
119 rotating light-sheet and detection planes in three dimensions and (ii) a computational method that co
121 cluding progressing these models from two to three dimensions and developing new tools for model vali
122 ods to precisely locate nanoscale objects in three dimensions and for the formation of rigorous struc
125 ation of diffusion pathways in one, two, and three dimensions and reproduces migration barriers obtai
126 ds increase approximately linearly along all three dimensions and that detection accuracy is unaffect
128 -Hess scale, aneurysm localization, aneurysm three dimensions and volume, neck width, sac-to-neck rat
129 oeboid cells to migrate in two dimensions or three dimensions and with or without adhesion can be exp
130 r inability to position organic molecules in three dimensions and with sub-1 micrometer resolution.
132 m by imaging endogenous clathrin (in two and three dimensions) and apply the method to find the previ
133 are clustered on chromosomes in both two and three dimensions, and interactions with active enhancers
134 ippocampal place-cell maps are metric in all three dimensions, and might be composed of 2-D and 3-D f
135 orescence imaging, 7 x 7 x 3.5 mum in OCT in three dimensions, and the current speed of imaging is up
136 he exploration of geometrical frustration in three dimensions, and their rich phenomenology encompass
137 high-resolution shearing-box simulations in three dimensions, and with global two-dimensional simula
138 al advances in imaging in both real-time and three-dimensions, and in single cell RNA sequencing.
139 Gaseous signaling molecules that diffuse in three dimensions apparently contradict the selectivity a
140 erial to organize plasmonic nanoparticles in three dimensions, as well as fuel for driving the metamo
141 b-diffraction imaging at arbitrary points in three dimensions, as well as the ability to track moving
144 locks where targets were presented in one of three dimensions: auditory location, pitch, or visual br
145 nd segments the lesions, lungs, and lobes in three dimensions, based on a dataset of 9749 chest CT vo
146 We constructed a map of the Milky Way in three dimensions, based on the positions and distances o
147 for carrying out studies of cell sorting in three dimensions, because of its unique ability to regen
148 o answer experimentally: measuring forces in three dimensions, between deeply buried grains, is chall
149 ded by sensitively adjusting their shapes in three dimensions ('biocryomorphic evolution') thus maint
153 rophobic moment of a molecule as a vector in three dimensions by evaluating the surface distribution
154 ructure and actuate hydrated gels in two and three dimensions by locally patterning ions via their di
155 of producers and free-riders in one, two and three dimensions by modeling producer cell, free-rider c
156 n plunge-frozen form, can be investigated in three dimensions by scanning electron microscopy imaging
157 tics of FcgammaRIII isoforms are obtained in three dimensions by surface plasmon resonance and in two
158 nhance spatial resolution (to <300 nm in all three dimensions) by applying our method to single-view
159 al correlations of neurovascular coupling in three dimensions, by applying a single 10 ms pulse of li
160 rrangement of different molecular species in three dimensions can affect the ability of individual su
162 actin filaments as semiflexible polymers in three dimensions composed of beads connected with spring
163 he most general viscosity tensors in two and three dimensions, constrained only thermodynamics and cr
165 interactions are further characterized with three-dimension cultures, in which P3 regenerative cells
166 fine and classify activity cliffs in two and three dimensions, data mining investigations to systemat
167 nerated for each ionization mode considering three dimensions: DBE related to aromaticity, number of
168 atter show a linear electronic dispersion in three dimensions described by two copies of the Weyl equ
169 topological superconductors in both two and three dimensions display SUSY when probed at long distan
170 morph a tissue reliably and efficiently into three dimensions during outgrowth is still puzzling, esp
171 ate these processes non-destructively and in three-dimensions during the sintering of a simple copper
172 struction microscopy (STORM) techniques into three dimensions, effective localization depths do not t
173 angled carbon nanotube (CNT) networks in all three dimensions, employing the CNTs in their high tensi
175 k base pairing, with crystal assembly in all three dimensions facilitated by immobile Holliday juncti
178 rtant role in unveiling atomic behaviours in three dimensions for nanomaterials during various fundam
179 xpression, which can be summarized in two or three dimensions for visualization on a scatterplot.
180 ry society observed; that music varies along three dimensions (formality, arousal, religiosity), more
181 structure of binary nanoparticle mixtures in three dimensions from self-assembly opens enormous oppor
182 ative to their neighbors, two dimensions and three dimensions have similar behavior as the glass tran
183 conservation exhibit low overlap across the three dimensions, highlighting the need for an integrati
184 s in our understanding of limb patterning in three dimensions, how limbs reproducibly form along the
186 iomolecular distribution of whole embryos in three dimensions, (ii) resolving anatomical features at
187 many of which exhibit elaborate curvature in three dimensions, illustrated for example by orchid flow
188 ttachment to the tentorium by constructing a three-dimension image of the tentorium and muscles.
189 rom the Mesozoic Era, which are preserved in three dimensions in a specimen from the Late Cretaceous
190 es with an SprB antibody and tracked them in three dimensions in an evanescent field where the nanopa
194 me proximal to it or if molecules diffuse in three dimensions, increasing molecular reach increases r
195 hology and molecular diffusion parameters in three dimensions independently of the imaging depth.
196 the hippocampus can be differentiated along three dimensions (input divergence, transmitter mobiliza
198 terphase, the human genome sequence folds in three dimensions into a rich variety of locus-specific c
200 ven though real-world motion often occurs in three dimensions, involving a change in distance from th
201 arch problem by the predator for its prey in three dimensions is a difficult problem: it requires the
207 that E. coli bacterial chromosome folding in three dimensions is not dictated entirely by genetic pos
208 f medical devices, the study of the heart in three dimensions is particularly useful to understand it
209 delocalisation of mobile electrons in two or three dimensions is probably one of the key aspects that
211 hic microstructure, non-destructively and in three-dimensions, is a powerful tool for understanding m
212 s already been theoretically extrapolated to three dimensions, it usually still remains restricted to
213 dependently of system preparation in two and three dimensions, leading to kappa approximately 1.41, a
214 synaptic architecture at high resolution in three dimensions of an intact vertebrate in a close-to-n
217 s (do, re, mi, etc.) are associated with the three dimensions of color (hue, saturation, and value/br
218 n) which, after rotation, were identified as three dimensions of empowerment: attitude to violence, s
220 ubstantively important causal effects on all three dimensions of persuasion but no such effects on is
221 citation provides high spatial resolution in three dimensions of the corresponding chemical or physic
223 scopy (STORM), which provides information in three dimensions on large cellular volumes at 70 nm reso
224 e, we develop mathematical models in two and three dimensions on longer timescales that recapitulate
225 We characterize their geometric structure in three dimensions on the basis of experimental conductanc
226 ationships (SARs) can be further explored in three dimensions on the basis of the corresponding 3D-cl
227 reward learning task where options varied on three dimensions, only one of which predicted reward.
228 e exists no method to describe structures in three dimensions or molecules with irregular shape.
229 nce, and visualization of microbial cells in three dimensions over time, and are compatible with stab
232 ture rigid helical strands interlaced in all three dimensions, rather than the two-dimensional(17,18)
234 of nanoparticles on the cellular contour in three dimensions revealed long-range deceleration of the
235 taxon nesting site from Romania preserved in three dimensions reveals the earliest example of nest si
236 average over many concepts and domains these three dimensions (reward, risk, and uncertainty) should
237 The Brownian motion of two particles in three dimensions serves as a model for predicting the di
238 f the entire carotid bifurcation area across three dimensions simultaneously captured in a single vol
239 ding the one-dimension optimization to a new three-dimension space optimization driven by the multi-o
240 can persuade their constituents directly on three dimensions: substantive attitudes regarding policy
241 to build large-scale microfluidic systems in three dimensions that are modular, diverse, and predicta
242 self, ie tolerance operates more or less in three dimensions that largely spare autologous cells and
244 DI; refs 11, 12) can be used to visualize in three dimensions, the entire network of dislocations pre
245 has been made towards free-space cloaking in three dimensions, the material properties required are i
246 also predict optimal organization in one and three dimensions, the number of modules, and, with added
248 or target nucleosomes by primarily moving in three dimensions through the nucleoplasm or in one dimen
250 d sequence that are verified structurally in three dimensions to be high fidelity by single-particle
251 adiologists independently measured tumors in three dimensions to calculate TDT and specific growth ra
252 The success of linking atoms in two and three dimensions to construct extended framework structu
254 up a tissue (cells and matrix materials) in three dimensions to generate structures similar to tissu
256 hile optical traps can manipulate objects in three dimensions, to date, nanoscale materials have been
257 ining these techniques and extending them to three dimensions, to produce scanning precession electro
261 Purkinje fiber network, which was imaged in three dimensions using optical projection tomography.
262 ith a solar reconnection event is studied in three dimensions using the combined perspectives of two
263 Here we show detailed upwelling pathways in three dimensions, using hydrographic observations and pa
264 hemical transformations were investigated in three dimensions, using state-of-the-art X-ray energy-di
265 n numerical solutions of Stokes equations in three dimensions, validated with experiments reported in
266 erstanding of how these interactions look in three dimensions, vary across cell types in complex tiss
267 esin and carbon fiber fluid to be aligned in three dimensions via controlled micro-extrusion and subs
269 assigned to three learning tools: text-only, three-dimension visualisation in a two-dimensional scree
270 Here, to achieve super-resolution in all three dimensions, we applied Array Tomography (AT) and S
271 matic analyses of the human islet in two and three dimensions, we demonstrate islet heterogeneity in
272 eviously predicted nitrate concentrations in three dimensions were themselves predictive of arsenic a
273 ire serial measurements of primary tumors in three dimensions, whereas the Response Evaluation Criter
274 l realization of the Hubbard model in two or three dimensions, which can act as an analogue quantum s
275 ructural specificities of RBP targets in all three dimensions, which can be further used to predict n
276 We develop a model of self-organizing MTs in three dimensions, which predicts the importance of MT se
277 that guide crack propagation and twisting in three dimensions, which we have followed using an origin
278 a particle to have linear dispersion in all three dimensions while being doubly degenerate at a sing
279 atures of multiple cell type interactions in three-dimensions while allowing tight control of the mic
280 the aforementioned features are evaluated in three dimensions, while the degradation of the zeolite f
281 ular resolution and millisecond precision in three dimensions will accelerate the pace of neuroscienc
282 espond to filled 1S and 1P shells in two and three dimensions with a valence of 2 for V, whereas the
283 yzing bacterial swarming behavior in two and three dimensions with both high-resolution and wide-spat
284 , it is a challenge to localize molecules in three dimensions with high precision in such samples whi
285 lution and fidelity architectures in two and three dimensions with line widths down to 1 mum are form
286 c tomography--to probe optical properties in three dimensions with nanometre-scale spatial and spectr
288 gardens are mineral aggregates that grow in three dimensions with plant-like forms and share propert
289 lex phenotypes are automatically captured in three dimensions with unprecedented speed and detail in
290 ve been studied with nanometer resolution in three dimensions with volumes exceeding tens of micromet
291 scribe a method to code complex materials in three-dimensions with tunable structural, morphological
292 ime evolution of the F-actin distribution in three dimensions, with branching included as a direction
294 provides subnanometre spatial resolution in three dimensions, with single electron-spin sensitivity.
298 ples with high spatio-temporal resolution in three dimensions would provide a step change in cell and
299 (VR), designed to render a Manhattan plot in three dimensions, wrapping the graph around the user in
300 (AFM) has allowed the study of live cells in three dimensions (X, Y, and Z) over a prolonged time (t)