ライフサイエンスコーパス: motion

1 wo-flash fusion) or moved in space (apparent motion).

2 exploration, and super-diffusive persistent motion.

3 bution from locations along the direction of motion.

4 TMS should also quickly disrupt ongoing eye motion.

5 mpanied by corresponding changes in directed motion.

6 te visual and vestibular cues regarding self-motion.

7 rge) grain-filled side or an unbiased random motion.

8 rmance based on available sensory cues to 3D motion.

9 in fluorescence intensity during rotational motion.

10 ree-dimensional patterns of systolic cardiac motion.

11 d south in fall were frequently aided by ice motion.

12 the cell to escape by a screw-like backward motion.

13 Heisenberg picture as nonlocal equations of motion.

14 are stochastically displaced due to Brownian motion.

15 rate and coordinate forces during collective motion.

16 s of DNA dictates to a great extent the LacI motion.

17 mus, allowing dynamic control of the induced motion.

18 twinkling phenomena associated with polaron motion.

19 objects or from retinal slip caused by self-motion.

20 division axis, facilitates the onset of this motion.

21 ing seismic hazard and for predicting ground motion.

22 y of joint tuning for object motion and self-motion.

23 arm response to a sensation of altered body motion.

24 hese neurons may also control other types of motion.

25 terms of the blurring effect of respiratory motion.

26 red with a TENG device rotated by human hand motion.

27 movement, suggesting that theta encodes self-motion.

28 prior to anaphase onset to dampen chromosome motion.

29 essed feature like edges or the direction of motion.

30 de a better understanding of the domain wall motion.

31 us to reconstruct its dynamical equation of motion.

32 ion, but remained silent during global image motion.

33 m, is characterized by a generalized helical motion.

34 ing time scales for proton versus heavy-atom motion.

35 reaching accuracy during unpredictable body motion.

36 lternate between free diffusion and confined motion.

37 ive indexes and topologically protected wave motion.

38 d for both high-speed migration and straight motion.

39 -rescan examinations affected by respiratory motion.

40 ng visual acuities ranged from 20/25 to hand motion.

41 range of receptor conformations and dynamic motions.

42 n inhibit maturation by perturbing molecular motions.

43 ments, including pulse monitoring and finger motions.

44 ct and stable structure that restricts their motions.

45 p improved to 20/400 from a baseline of hand motions.

46 straints through increased freedom of MBD1-3 motions.

47 e various classes of experimentally-observed motions.

48 hase diagram, such as self-trapped localized motion, 2-D diffusive exploration, and super-diffusive p

49 the technique is unable to describe dynamic motion, a process which is resolvable with LDA.

50 ape, size, and texture of the object and its motion across the skin.

51 We report bi-directional domain wall (DW) motion along and against current flow direction in Co/Pt

52 y 1 and 2 helicases turn ATP hydrolysis into motion along DNA.

53 ormation of ssDNA bulges and their diffusive motion along SSB surface was directly observed in multip

54 datasets were retrospectively binned into 4 motion amplitude frames corresponding to the simultaneou

55 More quantitative transient motion analyses revealed that the overall reduction of v

56 We tested to what extent auditory motion analysis can be explained by the linear combinati

57 We used 3D and 2D motion analysis to quantify the probing behavior of the

58 solated a positive perceptual dependency for motion and a negative dependency for orientation.

59 There is forward motion and a willingness on many sides to understand and

60 larger soliton, contributing to its Brownian motion and decreasing its lifetime.

61 a freely moving C. elegans undergoing large motion and deformation.

62 ef transient just after taking off, the wing motion and flap rate of a large woodpecker may not be th

63 of the supramolecular concepts of mechanical motion and guest binding with the redox noninnocent and

64 strategy to limit internal water rotational motion and increase relaxivity of Gd complexes.

65 t often shows severe disorder, large thermal motion and low occupancies, the reliable crystallographi

66 es of magnetoelectric effect-electron spiral motion and magnon-drag thermopower-as well as enhancing

67 Our approach permits the imaging of the motion and morphological dynamics of a single, same part

68 sory neurons may be exploited to decode self-motion and object motion from the population activity of

69 explore this problem in the context of self-motion and object motion, which are inherently confounde

70 inty evidence showed that continuous passive motion and preoperative exercise had no pain improvement

71 r signals play a role in dissociating object motion and self-motion, and recent computational work su

72 the separability of joint tuning for object motion and self-motion.

73 es (temporal control, autonomous structures, motion and work generation, information processing) rath

74 ants of IGPS designed to disrupt millisecond motions and allosteric coupling to identify regions that

75 We modeled these motions as fast local motions and slower collective motions of TM helices and

76 initial BCVA was 20/400 (range 20/60 to hand motion) and final was 20/50 (range 20/30 to 20/400) (P <

77 sic physical mechanisms at stake in phoretic motion, and describe the different experimental works th

78 role in dissociating object motion and self-motion, and recent computational work suggests that a li

79 nhibited flagella rotated freely by Brownian motion, and suppressor mutations in MotA that were immun

80 es pin movement compared to interfragmentary motion, and the scale enables more accurate measurement

81 were faster on trials with stronger (easier) motion, and they were well fit by a bounded drift-diffus

82 imental structures yields the most important motions, and these are used in structural interpolation

83 These motions are a target for possible new therapies; however

84 ast a factor of 60, confirming that TM helix motions are linked to the citrate-binding event.

85 ted with tactile motion perception in visual motion area V5/hMT+, primary somatosensory cortex (SI) a

86 diffusive and superdiffusive/superballistic motion arises naturally as a result of the interplay bet

87 al is associated with a spontaneous twisting motion around the DNA bridge caused by the large change

88 To minimize motion artifact, the iPhone camera was held in a cradle

89 Images were independently analyzed for motion artifacts by three radiologists.

90 ise ratios are achieved, along with ultralow motion artifacts for both internal (body) and external (

91 d breath-holding duration is associated with motion artifacts.

92 We modeled these motions as fast local motions and slower collective moti

93 y, subjects learned to reorganize their body motions as they practiced the control of a computer curs

94 nite element modeling of metal micro-droplet motion associated with metal additive manufacturing (AM)

95 allosteric resistance to the membrane-normal motion associated with the switchblade model of integrin

96 e light-induced femtosecond coherent lattice motion at a single phonon frequency, and photoemission m

97 Atomic motion at grain boundaries is essential to microstructur

98 The control of matter motion at liquid-gas interfaces opens an opportunity to

99 Controlling motion at the microscopic scale is a fundamental goal in

100 mean square displacements, we quantified DNA motion at time scales ranging from 10 milliseconds to mi

101 Residual local motions at the edges of the strands, underscored by enha

102 er this problem using a theory of stochastic motion based on the Langevin equation with non-Wiener st

103 try proteins) is more dynamic with transient motions being larger than generally appreciated.

104 rver translation produces differential image motion between objects that are located at different dis

105 only 1 patient requiring re-scanning due to motion blur.

106 isomerization involves not only a torsional motion but also a bending of the molecule due to the sp

107 VG3-AC neurites responded strongly to object motion, but remained silent during global image motion.

108 Detection of water motion by the lateral line relies on mechanotransduction

109 ened or curved patterns with straight nozzle motions by accumulating the ink.

110 for the catalytic cycle, incorporating large motions by four loops that surround the active site.

111 ced on a vibrating plate exhibits 3 types of motion - by tuning the frequency and the amplitude of th

112 increasing the noisiness of individual cell motion can actually increase the collective accuracy of

113 We combined this motion-cancellation system with differential illuminatio

114 r flexion joint angles were recorded using a motion capture system.

115 tivity during, but not following PTC sets in motion cascading molecular events for the acquisition (A

116 emove recognizable human figures or coherent motion caused significant, though smaller shifts in appa

117 Interestingly, jerky slingshot motions characteristic of twitching motility comprise th

118 processes and a chemical trajectory (nuclear motion, charge-transfer, intersystem crossing, etc.) dic

119 self-assembly, chemically fuelled molecular motion, compartmentalised chemical networks and designed

120 e mobility, and specifically of the directed motion component, is the predominant activity-evoked cha

121 n temperature [Formula: see text] or whether motion continues to slow gradually down to zero temperat

122 Our findings explain how RNAP thermal motions control the promoter search and drive DNA meltin

123 rames 80 min after a 370-MBq injection, were motion-corrected, averaged, and transformed to Montreal

124 Motion correction of hybrid (18)F-fluoride PET markedly

125 y measurements of thermally activated vortex motion (creep) in iron-based superconductors unveiled fa

126 A hybrid control model based on integrated motion cues simulates saccade trigger and dynamics.

127 and independently confirm its age by proper-motion dating.

128 ferent brakes, resulting in a high degree of motion design and control at the nanoscale.

129 We also measured motion detection and direction-discrimination thresholds

130 matograms to test the capacity for form from motion detection based on direction and velocity cues.

131 central retinal lesions either do not impair motion detection or even result in better performance, s

132 Here, we tested this using motion direction discrimination and predict a negative p

133 ting the linear space-time filter for global motion direction in humans and monkeys.

134 as, robust selective persistent activity for motion direction was only observed in PFC.

135 bution of sensory evidence (size, color, and motion direction) differs between first- and second-orde

136 two male monkeys that performed spatial and motion direction-based tasks that required working memor

137 theory to quantify perceptual sensitivity to motion direction.

138 timuli composed of conjunctions of color and motion-direction.

139 Signal theoretic analysis of a global motion discrimination task with adaptive performance sta

140 ult in better performance, specifically when motion discrimination was based on velocity discriminati

141 gitudinal flow exhibit not only the Brownian motion due to diffusion but also the translational movem

142 elegant choreography of this facial and head motion during tactile and olfactory exploration.

143 uations of water structure, elementary water motions, electric fields at hydrated biointerfaces, and

144 trum disorder) groups: imitation, biological motion, empathy, and theory of mind.

145 en visual communication and noncommunicative motion, enabling further inquiry into neural bases of co

146 drive for pursuit is related to the filtered motion energy in a motion stimulus, we compare measured

147 exploit the close connection between visual motion estimates and smooth pursuit eye movements to mea

148 we find that the filter predicts perceptual motion estimates quite well.

149 ly established model of optimal passive self-motion estimation.

150 ate event-related potentials associated with motion evaluation.

151 ly modulated by motion parallax-the relative motion experienced during translation.

152 the recent azimuthal change in Pacific plate motion exposes high- and low-pressure melt products as g

153 Viewing a video played in slow-motion for 30 seconds caused participants to perceive su

154 Purpose To compare the involuntary head motion, frequency and B0 shim changes, and effects on da

155 e exploited to decode self-motion and object motion from the population activity of neurons in macaqu

156 cess in live cells.Distinguishing rotational motions from translational motions in the z-axis has bee

157 duces a small-amplitude macrocycle shuttling motion, from the viologen to the merocyanine moiety.

158 The motion-generating deltoid muscle was more sensitive to m

159 We found that Brownian motion gives a more adequate description of observed tra

160 e energy harvester or nanogenerator converts motion, heat or light into electrical energy, which is s

161 MCI were excluded because of excessive head motion (ie, > 0.8 mm translation per repetition time of

162 clinical markers, three-dimensional cardiac motion improved survival prediction (area under the rece

163 d show that many units are excited by visual motion in a direction-selective manner.

164 We tested cue integration of facial form and motion in an identity categorization task and found that

165 The experimental characterization of wave motion in lattice structures is currently of great inter

166 conversion of chemical energy to directional motion in myosin V is examined by careful simulations th

167 es, whereas they stabilize tuning for object motion in neurons with discrepant preferences.

168 ntly have been shown to distribute force and motion in robust ways determined by a nontrivial topolog

169 mense potential for exploitation of their DW motion in spintronic devices.

170 rming (GF) liquids such as collective atomic motion in the form of string-like atomic displacements,

171 (SMM), which explains [Formula: see text] by motions in real space.

172 ishing rotational motions from translational motions in the z-axis has been a long-standing challenge

173 emporal processes were able to fully explain motion-induced activation in most parts of the auditory

174 Motion-induced change in emission (MICE) can be utilized

175 Motion-induced neuron deformation and damage are associa

176 presented here provides both diagnostic and motion information that can be used to improve MR and PE

177 cts, where its role in processing flow-field motion information used for controlling optomotor respon

178 nterface, which results in three-dimensional motion inside the droplet and thus fast mixing.

179 cortical neuron latencies and that temporal motion integration for pursuit is consistent with a shor

180 Amplification of molecular motions into the macroscopic world has great potential i

181 Specifically, low-frequency motions involving concerted motions of the crown scaffol

182 The last favours homochiral skyrmions, whose motion is driven by spin-orbit torques and is determinis

183 s high enough, the intensity of the swirling motion is enough to produce strong depressurization in t

184 The motion is propelled by unidirectional Exo III digestion

185 A consequence of the DNA internal motion is that protein target search may be accelerated.

186 ition length scale, Lt, separating these two motions, is found to depend strongly on the energy level

187 o showed a small contribution from the other motion kinematic (e.g., position).

188 mions acquire Berry phase of pi in cyclotron motion, leading to a zeroth Landau level (LL) at the cro

189 This ultrafast charge motion may be key to separating electron-hole pairs into

190 Respiratory motion may reduce accuracy in the fusion of functional a

191 that the dimer's dynamics in either directed motion mode resembles a limit cycle attractor that is in

192 tly accepted theory, here called the spatial motion model (SMM), which explains [Formula: see text] b

193 ay introduce artifacts in MR images, whereas motion model approaches require the acquisition of train

194 e energy into mechanical work to drive their motion, most commonly through fluids) constitutes a new

195 Consequently, molecular motions need to be taken into consideration when interpr

196 cond (tens to hundreds of picoseconds) local motions occur throughout the protein and are dominant in

197 n is typically much smaller than the thermal motion of a room-temperature object and thus difficult t

198 We experimentally investigated the quantum motion of an impurity atom immersed in a strongly intera

199 how that an electric field can drive uniform motion of baby skyrmions in liquid crystals.

200 d on combining analyses of confined Brownian-motion of bacteria adhering to glass and their AFM force

201 s the potential to visualize the microscopic motion of cilia during their beating cycle.

202 incidence of bankfull flow and the incipient motion of D50 has become a commonly used assumption.

203 aces are known to control the activation and motion of dislocations, and despite the fact that most o

204 A "frozen" state with negligible motion of domain walls on atomic and mesoscopic scales o

205 Molecular dynamics simulations calculate the motion of each atom in a protein based on classical appr

206 The motion of electrons in the microcosm occurs on a time sc

207 t the heart of these devices is the internal motion of electrons through semiconductor materials due

208 s are another type of periodic and transient motion of large woodpeckers.

209 n sends to our arm muscles and the resulting motion of our hand.

210 with bimodal sediment size, by tracking the motion of particles from the surface to deep inside the

211 Using the directed motion of particles induced by exposure to CO2, we demon

212 r, we report small-amplitude reorientational motion of protein molecules in the crystal lattice with

213 mational exchange as well as overall rocking motion of protein molecules in the crystal lattice.

214 rokinetic (ABEL) trap to counteract Brownian motion of single particles in real time, we directly mon

215 Furthermore, the erratic motion of spinners at the interface generates chaotic fl

216 ese structures illustrates the full range of motion of the activation gate, from closed with its orif

217 By switching the motion of the alpha-cyclodextrin rings between random sh

218 rationally adiabatic (VA) model in which the motion of the H3O(+) ion in the crown pocket is strongly

219 loitable electric behaviour that arises from motion of the imidazolium guest.

220 w that the intrinsically enhanced freedom of motion of the iodine atoms enables large deformations.

221 lar subunit interface, coupled to an outward motion of the M2-M3 loop near the channel gate.

222 fundamental number-of-particles integral of motion of the nonlinear Schrodinger equation, keeping th

223 and validate theoretically, that the inward motion of the phase boundary near the substrate drives a

224 c plate and a recent azimuthal change in the motion of the plate.

225 elements, forces and torques exerted on, and motion of the syringeal skeleton during song.

226 neutron scattering (EINS) that probes local motions of a system at the atomic level by allowing extr

227 trajectories and the accompanying rotational motions of the cargoes are resolved accurately to render

228 y, low-frequency motions involving concerted motions of the crown scaffold and the H3O(+) ion are dri

229 te that 2-SeCN-Bmim(+) is sensitive to local motions of the ionic region that influence the spectral

230 ially around the division ring and drove the motions of the peptidoglycan-synthesizing enzymes.

231 field (1 GHz), we were able to describe the motions of the residues of the beta-barrel as a collecti

232 ibosomal subunit via reversible, swivel-like motions of the small subunit head domain within the elon

233 Recent studies suggest that wave motions of the tectorial membrane (TM) play a critical r

234 Our simulations show that large rigid-body motions of the transport domain (55 degrees in rotation

235 hysics and biochemistry that coordinates the motions of these groups of cells.

236 To shed light on this issue, we examined the motions of three evolutionary divergent proteins in the

237 as fast local motions and slower collective motions of TM helices and of structured loops, and used

238 ed on extracting the kinetic energy from the motions of water drops on hydrophobic surfaces, and thus

239 suggests that it arises from the wavepacket motion on the ground state potential energy surface, whi

240 tinct tuning to the size, speed, and type of motion on the retina, enabling them to occupy different

241 produces one global pattern of retinal image motion (optic flow), rotation another.

242 helices are consistent with a helix scissors motion or a gearbox rotational model of HAMP activation.

243 owed participants were unable to perform the motion or form task reliably when segment size was small

244 ye-tracking showed an increase in biological motion orienting preference with RG7713 (ES=0.8, p=0.047

245 sm - however, unlike the long-range apparent motion paradigm, this was unaffected by different combin

246 ances from the observer's point of fixation [motion parallax (MP)].

247 nd that observers learn to exploit the small motion parallax cues provided by head jitter.

248 signal depth from MP.SIGNIFICANCE STATEMENT Motion parallax is a monocular cue to depth that commonl

249 speed-tuned and is selectively modulated by motion parallax-the relative motion experienced during t

250 rst directionally selective neuron in the ON motion pathway (T4) as well as its primary input neurons

251 We capitalized on the strong link between motion perception and neural activity in the middle temp

252 al and temporal processing underlying global motion perception has been elusive.

253 reported activations associated with tactile motion perception in visual motion area V5/hMT+, primary

254 3D motion perception is of central importance to daily life

255 xamined the impact of central vision loss on motion perception using random dot kinematograms to test

256 then the case for V5/hMT+ serving multimodal motion perception.

257 these areas are causally involved in tactile motion perception.

258 construct volumetric cardiac and respiratory motion phases, contrast-agent dynamics, and blood flow v

259 motion signals uniformly, but rather weights motion preferentially in a narrow band at approximately

260 ed interventions included continuous passive motion, preoperative exercise, cryotherapy, electrothera

261 ur findings call into question the view that motion processing deficits are due to poor reading exper

262 t to reflect the operation of intrinsic self-motion-related computations [9-12].

263 all of the peptidase families, their dynamic motions remain obscure.

264 act nature of catalytically relevant protein motions remains largely unknown.

265 Even so, the in-cell motions respond predictably to surface mutation, allowin

266 These motions result in a minimum open-channel pore radius of

267 dendrites of neighboring LC11s encode object motion retinotopically, but the axon terminals fuse into

268 al vision induces functional mobilization of motion-sensitive visual cortex, resulting in enhanced pe

269 ight of the slab in an advancing upper plate-motion setting can locally impede rollback and maintain

270 iveness of some anti-mAChR drugs in treating motion sickness suggest that we may, in fact, already be

271 sual system appears to preferentially weight motion signals across a narrow range of foveal eccentric

272 Instead, they usually contain motion signals originating either from moving objects or

273 e VG3-AC plexus to contribute precise object motion signals to diverse targets without distorting tar

274 system does not appear to use all available motion signals uniformly, but rather weights motion pref

275 The default motion simulated by SimGen is a Brownian-like diffusion

276 herently linked to changes in regional plate motions, so an improved chronostratigraphy of the sedime

277 networks associated with tactually-extracted motion speed.

278 rained additional subjects on these combined motion-state perturbations and confirmed the predictions

279 and decay of adaptation and (2) for combined motion-state perturbations, the gain associated to chang

280 s related to the filtered motion energy in a motion stimulus, we compare measured and predicted eye a

281 are altered in the heavy enzyme to diminish motions that determine the transition state sampling in

282 detecting perceptual features (e.g. bipedal motion) that reliably correlate with their appearance.

283 n opioid consumption: for continuous passive motion, the mean differences were -0.05 (95% CI, -0.35 t

284 mono-exponential, the intravoxel incoherent motion, the stretched exponential, and the statistical m

285 We use visual image motion to judge the movement of objects, as well as our

286 orming a number of functions from mechanical motion to simple computation.

287 s closely for timing and magnitude of upward motion to the corona observed 29 s after the event onset

288 ential to characterize the directionality of motion to understand and control protein dynamics to opt

289 From the picosecond side chain motions to aggregates that form over the course of minut

290 ation, the dimer undergoes either a directed motion toward the small (or large) grain-filled side or

291 ion in solution can be described as Brownian motion up to physiological concentration and that hemogl

292 olute gradients to induce particle and fluid motions via diffusiophoresis and diffusioosmosis, respec

293 ore effectively blocked the channel, and its motion was accompanied by a temperature-driven rearrange

294 Such reptation-like motion was confined by DNA binding to high-affinity spot

295 The coupled motion was seen to increase the CL velocity thereby incr

296 lem in the context of self-motion and object motion, which are inherently confounded in the retinal i

297 tracking cell position and adjusting pipette motion while approaching a target.

298 thermally driven vibrations and perturb its motion with optical force fluctuations at a level dictat

299 Small-amplitude motions within contact F-Q pairs, which gate the electro

300 (Australia), associated with northward plate motion, without much relation to the plateau uplift.