ライフサイエンスコーパス: movement

1 ntous actin staining, indicating active cell movement.

2 play a central role in mapping sensation to movement.

3 , recruitment, and patterns of long-distance movement.

4 tter understanding of how the brain controls movement.

5 y complex (termed DDB) capable of processive movement.

6 ediate reward was given for every predictive movement.

7 n cells affects the dynamics of IFT particle movement.

8 show an increase in spike rate with whisker movement.

9 bus pallidus feedback loop, and occur during movement.

10 d in controlling the precision of the ocular movement.

11 or example, many larvae display little or no movement.

12 hes from brightfield microscopy and cellular movement.

13 initiating a feedback loop to enable its own movement.

14 or pathological alterations in cell shape or movement.

15 due to diffusion but also the translational movement.

16 hanges only for the effector involved in the movement.

17 ection neurons (SPNs) is critical for proper movement.

18 carrier frequency of this circuit suppressed movement.

19 nd coordinate motility systems for efficient movement.

20 e with dynactin to enhance processive dynein movement.

21 es for patients undergoing orthodontic tooth movement.

22 e the effect of obesity on orthodontic tooth movement.

23 the dexterous control of human arm and hand movements.

24 s stationary, we view it with fixational eye movements.

25 nd attenuate the sensory consequences of our movements.

26 at lead to asynchronous pore-lining M2 helix movements.

27 e is no auditory accompaniment to visual eye movements.

28 cuits control the actual rhythmic pattern of movements.

29 g of CVs performed between incremental motor movements.

30 t were driven by volitional whisker and body movements.

31 al visual acuities of 20/40, 20/70, and hand movements.

32 ents and functionally meaningful multi-joint movements.

33 suppress, the sensory consequences of willed movements.

34 ector dispersal, but below one for livestock movements.

35 tor variability even across trivial reaching movements.

36 ility, cellular mechanisms and multicellular movements.

37 pects for the planning and execution of hand movements.

38 SMns) are recruited during weaker and slower movements [4-6].

39 Wrist movement accuracy in the untrained pointing task improve

40 to regulate muscle excitability, electrolyte movement across epithelia, and acidification of intracel

41 possible asymmetries in the distribution of movements across space.

42 istricts, we compared 6 models of population movement (adjacency, gravity, radiation, radiation based

43 shown that the variability of follow-through movements affects the rate of motor memory formation.

44 ance in a changing world or to recover basic movement after neural injuries.

45 e functional necessity of minus-end-directed movement along actin is unclear as the underlying archit

46 machine capable of long-distance processive movement along microtubules.

47 eurons favor the appearance of dystonia-like movement alterations after oxotremorine.

48 y were the dominant determinant of orangutan movement among all age and sex classes, with orangutans

49 he Gulf display largely dip-slip extensional movement and accompanying footwall uplift.

50 s simultaneous measurement of voltage sensor movement and current through the channel pore.

51 se questions, we tested for differentiation, movement and expansion in four elevational generalist so

52 lize VFs, evidence is provided of dynamic VF movement and interactions at least partially dependent o

53 properties required for proper morphogenetic movement and pattern formation.

54 ropagate along migratory routes shape animal movement and presumably, energy gains during migration.

55 predominantly transmitted through population movement and replacement and locate putative focal areas

56 al variation in alliance structure, seasonal movements and access to mates within a single continuous

57 to perform simple single-joint arm and hand movements and functionally meaningful multi-joint moveme

58 How movements and growth are coordinated between the differe

59 ular hair cells in the inner ear encode head movements and mediate the sense of balance.

60 ce-time function that best predicts both eye movements and perception of translating dot patterns.

61 y distinct functions for the control of hand movements and predispose them to undertake different, pe

62 ively promote the recovery of volitional leg movements and standing in individuals with chronic clini

63 ociating domains (TADs) that undergo en bloc movements, and identify dynamically coupled distal regio

64 ify the influence of increased drift on bear movements, and we modeled the consequences for energy de

65 nce are transiently reactivated from memory, movement- and immobility-associated activity patterns ar

66 dual cell migratory behaviors for collective movement are largely unknown.

67 Therefore, we suggest that the directed movements are a response to the physical arrangement of

68 Like every motor action, these eye movements are subject to noise and introduce instabiliti

69 These intermediate movements are thought to reflect an unintentional averag

70 nuclei (CbN cells), whose activity generates movement, are inhibited by Purkinje cells and excited by

71 tochastic patterns in their spontaneous head movements as early as 1-2 months after birth, relative t

72 s in the substrate and refer to the directed movements as polymertropism.

73 , is strictly required for WSS-enhanced cell movement, as blockade of YAP1, TEAD1-4 or the YAP1-TEAD

74 (defined as a percentile rank of </=5 on the Movement Assessment Battery for Children-Second Edition)

75 s evolved to meet the functional demands for movement associated with different behaviors and environ

76 atural environments, humans see visual mouth movements at the same time as they hear voices, while th

77 dators have the potential to strongly affect movement behavior of tracked marine animals.

78 Mechanistically linking movement behaviors and ecology is key to understanding t

79 ata" techniques to provide new insights into movement behaviour when applied to large datasets of ani

80 idence rules encourage sustained directional movement between speech communities, then languages shou

81 ltiple lake-migrant behaviours that involved movements between lakes and rivers.

82 xperience are required to coordinate precise movements between pairs of larvae, therefore increasing

83 ies of languages and genes reveal persistent movements between stable speech communities facilitated

84 nerve block before, but not after, hindlimb movement blocked movement-induced BTP.

85 al activity occur in the motor cortex before movement, but the nature and purpose of this preparatory

86 tegy that automatically compensates for cell movement by tracking cell position and adjusting pipette

87 ctions.Nematodes use a characteristic set of movements, called nictation, to hitchhike on more mobile

88 Does elevational movement cause these species to resist diversification o

89 that at deep levels of unconsciousness where movement ceases, coherent thalamocortical delta oscillat

90 activity has features indicative of a hidden movement command.

91 with SHR allows for the formation of stable movement complexes that facilitate the cell-to-cell tran

92 bility to estimate the internal model before movement could improve motor neural prostheses being dev

93 e depletion are closely linked to collective movement decisions.

94 vated manganese levels and parkinsonian-like movement deficits.

95 sm where prioritized suppression between the movements determines their sequential performance.

96 Tardive dyskinesia is a persistent movement disorder induced by dopamine receptor blockers,

97 l rate of change in combined scores from the Movement Disorder Society-Unified Parkinson's Disease Ra

98 ing a disorder characterized by a dyskinetic movement disorder, developmental delay, and autism.

99 neurologic disorders, most often related to movement disorders and disorders of consciousness.

100 dominated by dementia, psychiatric changes, movement disorders and upper motor neuron signs.

101 Modern functional neurosurgery for movement disorders such as Parkinson's disease, tremor,

102 importance of the ERK/MAPK pathway in human movement disorders.

103 navigation has been able to follow animals' movement during learning; we tracked bumblebee foragers

104 ndividuals automatically adapt hyo-laryngeal movement during swallowing based on targets required for

105 ity in the reaction time and accuracy of eye-movements during a memory guided saccade task are relate

106 ke rates, including tail beat and whole-body movements during feeding, were faster (approximately 0.7

107 oups as well as differences in structure and movement dynamics between groups.

108 e investigate how the structure, leadership, movement dynamics, and foraging performance of groups ca

109 lp in designing drug therapies for human eye movement dysfunctions such as abducens nerve palsy.

110 unrelated and limited in number, volitional movements (eg, facial muscle activity, head movements, s

111 the striatum, a brain region implicated with movement execution, EAAC1 limits group I metabotropic gl

112 ortex of individual subjects explained their movement extent variability.

113 ent prevented BTP, whereas nerve block after movement failed to reverse BTP.

114 ling of touch and smell involves coordinated movements first observed in the rat half a century ago.

115 in survival, which in turn drive hybrid zone movement for two woodrat species (Neotoma fuscipes and N

116 Translational and rotational head movement, frequency, and B0 shim were determined with an

117 physical description of collective cellular movements from first principles, while accounting for kn

118 efined, task-specific activation pattern and movement generation during volitional attempts without s

119 demonstrated to be able to recognize finger movement, hand gestures, acoustic vibrations, and real-t

120 Here we investigate if lead-in movement has a similar effect on learning rate.

121 t source of bias that depends only on recent movement history.

122 ulation of rosette expansion growth and leaf movement in Arabidopsis (Arabidopsis thaliana).

123 tection and Ranging) to understand orangutan movement in disturbed and fragmented forests of Malaysia

124 (Rostrhamus sociabilis plumbeus), and human movement in Florida inferred from Twitter.

125 Upon the dopants' directional movement in P3HT, a dedoped region forms at the negative

126 ad no effect on rates of accretion, vertical movement in root and sub-root zones, or net elevation ch

127 and their importance in regulating nitrogen movement in support of metabolism, and vegetative and re

128 ducting conduits that facilitate polypeptide movement in the opposite direction-from the cytosol into

129 enetic stimulation is sufficient to increase movement in the TST in stress-naive mice, while stimulat

130 llow molecular-level phenomena to drive such movements in artificial systems remains a scientific cha

131 esses in the context of simplified orienting movements in controlled laboratory tasks rather than an

132 ources in accounting for seasonal population movements in dynamic risk mapping strategies.

133 ved to align themselves and coordinate their movements in order to drag a common air cavity and dig d

134 alized areas involved in the control of hand movements in primates.

135 MENT The mechanism by which humans adapt eye movements in response to central vision loss is still no

136 the regulatory mechanisms underlying nuclear movements in root epidermal cells remains limited.

137 ance energy transfer imaging, we examine TM6 movements in the beta2 adrenergic receptor (beta2AR) upo

138 es: (1) from the onset of isolated orofacial movements in utero to the postnatal mastery of suckling

139 Disassembling microtubules can generate movement independently of motor enzymes, especially at k

140 d responses during self-generated ('active') movements, indicating that predicted sensory consequence

141 ts of a stationary mask on the reflexive eye movements induced by a moving stimulus.

142 Preventing movement-induced afferent input by saphenous nerve block

143 re, but not after, hindlimb movement blocked movement-induced BTP.

144 environmentally-induced changes in prenatal movement influence embryonic limb growth to alter propor

145 of how the brain selects actions, regulates movement initiation and execution, and switches from one

146 ct functions such as multimodal integration, movement initiation, bottom-up, and top-down attention.

147 shold level is not a necessary condition for movement initiation.

148 use the endogenous host ER/actin network for movement inside host cells.

149 tion of the importance of angular and linear movement-integration in generating spatial maps.

150 Patch clamp recordings in GCs reveal that movement is accompanied by changes in mossy fibre input

151 Nuclear movement is critical for developmental events, cell pola

152 Given that animal movement is suspected to have significantly biased early

153 Thus, a predictive signal about the upcoming movement is widely available at the input stage of the c

154 g knowledge on the molecular control of cell movements, it is unclear how the different observed mode

155 representations of upper and lower extremity movement kinematics in subthalamic units and observed ev

156 hypokinesia), but can develop uncontrollable movements known as dyskinesia upon treatment with L-DOPA

157 ant PSP syndromes with different patterns of movement, language, or behavioural features than have be

158 This co-movement likely depends on epidermal cellular protrusion

159 To characterize eye movements made by patients with intermittent exotropia w

160 Induced by metabolic challenge, amoeboid movement may thus constitute a common endpoint of both E

161 osome pairing is promoted through chromosome movement mediated by nuclear envelope proteins, microtub

162 f specific motoneuronal contributions to eye movements might help in designing drug therapies for hum

163 apply this method to two examples that span movement networks that vary considerably in size and que

164 with greater eastward movements, while their movements north in the spring and south in fall were fre

165 transition to wakefulness from non-rapid eye movement (NREM) and rapid eye movement (REM) sleep.

166 delta (0-3 Hz) activity during non-rapid eye movement (NREM) associated stages was greater than durin

167 ions and sleep spindles during non-rapid-eye-movement (NREM) sleep has been proposed to support memor

168 ion of the cardinal rhythms of non-rapid-eye-movement (NREM) sleep-the thalamo-cortical spindles, hip

169 ctivity and mimic the convulsive behavioural movements observed in Dravet syndrome.

170 e propagation mechanisms have been proposed: movement of a chemical agent and a pressure wave through

171 In this study, we monitored the movement of Agrobacterium-delivered VirE2 inside plant c

172 function as a barrier to limit transmembrane movement of apoplastic solutes into the endodermal cells

173 o facilitate the proton migration, while the movement of carbon is very limited.

174 ized in an anisotropic manner to promote the movement of centrosomes away from each other.

175 ilies in all domains of life, catalyzing the movement of diverse substrates across membranes.

176 onstructed based on an extension-contraction movement of DNA interconversion for the application of h

177 systems, as well as the recently discovered movement of FtsZ clusters around bacterial Z-rings that

178 f the nuclear piston mechanism slowed the 3D movement of HT1080 cells.

179 arely linked to both climatic conditions and movement of hybrid zones, such that the relationship bet

180 illar polyelectrolytes show that the outward movement of ions and intrafibrillar water through the co

181 In coral reef-fishes, the movement of larvae from planktonic to reef environments

182 forms a retro-translocation channel for the movement of misfolded polypeptides through the endoplasm

183 We use visual image motion to judge the movement of objects, as well as our own movements throug

184 Thus, the movement of one dynamic domain widens the active site en

185 to better leverage the differential lateral movement of particles with different sizes as they flow

186 This research helps shed light on the movement of populations across the continent, following

187 n the wild type and showed enhanced systemic movement of PTGS to grafted shoots.

188 ay be important to coordinate the mechanical movement of RNAPII through the nucleosome with co-transc

189 n stormwater management practices affect the movement of road salt through urban watersheds.

190 n results in a decrease in the intercellular movement of SHR and an increase in the sensitivity of SH

191 In the lung, ENaC is responsible for movement of sodium.

192 obic pocket facilitated by the large outward movement of the extracellular ends of transmembrane heli

193 tion to the brain regarding the position and movement of the head.

194 Anterior movement of the lamina was detected more frequently with

195 trabeculae from the rat to measure the axial movement of the myosin motors during the diastole-systol

196 l proteins in coordinating the intercellular movement of viral replication vesicles.

197 e low spike rates and low sensitivity to the movement of whiskers.

198 hat vary considerably in size and questions: movements of an endangered raptor, the snail kite (Rostr

199 k of MERS-CoV infection, as may cross-border movements of camels, poor hand hygiene, and overnight ho

200 SIA neurons to control the three-dimensional movements of flipping.

201 move their heads and eyes to compensate for movements of the body and background, search, fixate, an

202 e/assistive tool that can result in flexible movements of the fingers.

203 ng intracortical microstimulation (ICMS) and movements of the forelimb on a skilled reaching task.

204 y and exocrine gland secretion, and rhythmic movements of the gastrointestinal system.

205 tic and reversible sinusoidal-shaped bending movements of the neighboring commissural shafts.

206 f the MacB periplasmic domains via concerted movements of the second transmembrane segment and major

207 n pore remains closed, indicating that local movements of the transmembrane helices can control ion a

208 could translocate ahead of the other during movement on DNA.

209 The large influence of scale of movement on estimator accuracy emphasizes the importance

210 on the derived conditions, we interpret drop movements on both hydrophilic and hydrophobic wires, wit

211 find that participants generate intermediate movements only at (slower) speeds where they measurably

212 on was provided approximately 90 ms prior to movement onset in each group.

213 l activity was found to shift farther from a movement onset state during beta oscillations that were

214 the gamma band, and not explained by spatial movement or anxiety-like behavior.

215 In basal conditions, no overt dystonic movements or postures or change in locomotor activity we

216 r beam control is generally achieved by head movements or shape changes of the sound-emitting mouth o

217 While ecological theory predicts that the movement, or dispersal, of individuals can have profound

218 Hair movement out of the follicle appeared to occur independe

219 Repetitive strain from eye movements over decades might in susceptible individuals

220 rons are the major contributor to actual eye movements over the tested stimulus range.

221 ctive pupils (P < 0.001) and abnormal ocular movements (P = 0.03) compared with those in category 2.

222 data have provided most information on NARW movements, passive acoustic monitoring (PAM) was used in

223 el sounds by configuring different orofacial movement patterns and these sounds are used in communica

224 "Locomotor Inactivity During Sleep" (LIDS), movement patterns are exposed that directly reflect ultr

225 onal isotope data to track individual animal movement patterns over multiple years.

226 endering clinical interpretation of impaired movement patterns sub-optimal.

227 better understanding of the risk factors and movement patterns that contribute to poliovirus transmis

228 Under predation threat, narwhal movement patterns were more likely to be transiting, whe

229 Here, we trained subjects to make reaching movements perturbed by force patterns dependent upon eit

230 , which is associated with congenital mirror movements phenotypes, a phenotype also comorbid with PD.

231 owed brain activation patterns coherent with movement planning.

232 a distributed representation of learned eye-movement plans represented in domain-specific areas of t

233 computations in multiple brain areas during movement preparation and execution.

234 Blockade of sensory input before movement prevented BTP, whereas nerve block after moveme

235 Both endogenous plant proteins and viral movement proteins associate with microtubules to promote

236 The association of viral movement proteins with microtubules facilitates the form

237 ement with calcium activity corresponding to movement rate.

238 -men, mediums, and the prophets of religious movements, recur across human societies.

239 h was accompanied by changes in the activity-movement relationship.

240 RET has led to the hypothesis that substrate movements relative to the ribosome resolve through relat

241 The presence of probable rapid eye movement (REM) sleep behavior disorder was strongly asso

242 Rapid eye movement (REM) sleep behaviour disorder (RBD) is charact

243 of the mechanisms and functions of rapid-eye-movement (REM) sleep have occurred over the past decade.

244 non-rapid eye movement (NREM) and rapid eye movement (REM) sleep.

245 EM states was lower than Awake and rapid eye movement (REM).

246 c integration, in the expression of forelimb movement responses during intracortical microstimulation

247 ressee's understanding, without altering the movement's trajectory.

248 sponder had at least three spontaneous bowel movements (SBMs) per week with an increase from baseline

249 he placebo group on the Abnormal Involuntary Movement Scale (AIMS) dyskinesia score (items 1-7), as a

250 movements (eg, facial muscle activity, head movements, shoulder shrugs).

251 e examined how levels of signal and noise in movement signatures during the 1st year of life constrai

252 a neural architecture that readies different movements simultaneously, and a mechanism where prioriti

253 AT) imaging to identify idiopathic rapid eye movement sleep behavior disorder (IRBD) patients at risk

254 RO5256390 profoundly reduced rapid eye movement sleep in wild-type mice; these effects were eli

255 tween SPN ensemble patterns, irrespective of movement speed.

256 from characteristics of the subsidy and the movement strategy employed by animals that transport sub

257 nd powerful voice to the cancer survivorship movement that demanded a call to action.

258 erage of planned actions but rather a single movement that optimizes motor costs.

259 frequency and velocity of processive dynein movements that are activated by complex formation with d

260 electromyography in mice during two forelimb movements that differ in their requirement for cortical

261 e use a data-driven approach to pinpoint the movements that discriminate female dance quality.

262 NA lesion, generate abnormal oscillatory SPB movements that disrupt DSB-SPB interactions.

263 -myocardial communication can guide the cell movements that initiate cardiac morphogenesis.

264 TEMENT Saccades are the rapid, ballistic eye movements that we make approximately three times every s

265 RNA polymerase II (Pol2) movement through chromatin and the co-transcriptional pr

266 associate with microtubules to promote their movement through plasmodesmata.

267 f single fluorescent molecules allowed their movement through the pore network to be reconstructed.

268 the movement of objects, as well as our own movements through the environment.

269 ical chemists who are new to the open-source movement to best practices and concepts in this area and

270 g or swimming, animals must adjust their own movement to compensate for displacements induced by the

271 HR and an increase in the sensitivity of SHR movement to treatment with oryzalin.

272 isual field (foveated vision) and deploy eye movements to actively sample regions of interests in sce

273 an auditory or visual metronome found their movements to be largely reactive, not predictive.

274 tic variability that are reproducible across movements to different targets and when performing these

275 We used visually driven smooth eye movements to find the 3D space-time function that best p

276 However, dogs produced different facial movements to humans in comparable states of emotional ar

277 terns were similar across right and left arm movements to identical targets (extrinsic coordinates) i

278 lies generate both smooth and rapid saccadic movements to stabilize their gaze.

279 The efficient movement together with the continuous release of fresh c

280 l replay occurring either immediately before movement toward a reward location or just after arrival

281 he Tsr HAMP coupled with helix rotations and movements toward a two-helix packing mode.

282 elationship between cortical variability and movement variability, we find that cortical fMRI variabi

283 ild type Hsp27 neurons, although anterograde movement velocities remained normal.

284 e state-dependent adaptation associated with movement velocity is relatively more stable than that ba

285 each cell's correlation between activity and movement was stable both over time and across VR environ

286 To test for elevational movements, we measured hydrogen isotope (delta(2) H) val

287 ate wettability leads to various interfacial movements which are not identified under imbibition or d

288 but not V141M, directly slows voltage sensor movement, which indirectly slows current deactivation.

289 O6, MYO6+, which undergoes plus-end-directed movement while retaining physiological cargo interaction

290 ith PD who performed repetitive feet or hand movements while undergoing implantation of a deep brain

291 her westward ice drift with greater eastward movements, while their movements north in the spring and

292 eral cerebellum are broadly activated during movement with calcium activity corresponding to movement

293 em is developed; it automatically tracks pig movement with depth video cameras, and automatically mea

294 gging of LIMP caused a limping defect during movement with reduced speed and transient curvature chan

295 different targets and when performing these movements with either arm.

296 coordinates) in visual cortices, and across movements with equivalent joint-angles (intrinsic coordi

297 with the relative attenuation of cooperative movements with varying distance from the hinge center, w

298 ilability are important drivers of migratory movements, with birds from larger colonies or with poore

299 pe from environmental data and simulate bird movement within this landscape based on simple decision

300 y adaptive dimer can drive large-scale cargo movement without the requirement for polymers and sugges