ライフサイエンスコーパス: movie

1 agged by individual dynamic context stimuli (movies).

2 rforming a sensorimotor task, and watching a movie.

3 eflects subjectively rated engagement in the movie.

4 via an unsupervised analysis of the Brownian movie.

5 ho are viewing similar emotional events in a movie.

6 sness via media reports and even a Hollywood movie.

7 of a shift in the narrative structure of the movie.

8 mporally aligned to specific features of the movie.

9 , NMR-detected titration and the cardiac MRI movie.

10 frequency (1200 Hz) while watching a silent movie.

11 d viewing of complex natural stimuli such as movies.

12 for the dynamical analysis of these Brownian movies.

13 ngs, binary dense noise stimuli, and natural movies.

14 abase by novel trajectory analysis plots and movies.

15 king kinetochores from live-cell fluorescent movies.

16 opy and computational analysis of time-lapse movies.

17 nd localized contrast steps and naturalistic movies.

18 the response of this network to naturalistic movies.

19 data extracted from quantitative microscopy movies.

20 salamander retina as it responds to natural movies.

21 olecule RNA-FISH and quantitative time-lapse movies.

22 ca mulatta) during the presentation of color movies.

23 ns to estimate speed from naturalistic image movies.

24 ent with stationary snapshots from untrained movies.

25 to incongruent versus congruent vocalization movies.

26 aling and severing events live in time-lapse movies.

27 lated with each other, even for gratings and movies.

28 h for different object categories in natural movies.

29 ith each other, but less so for responses to movies.

30 emporal control over high-definition natural movies.

31 ded payments for tobacco brand placements in movies.

32 ng gratings, binary dense noise, and natural movies.

33 level properties of the intact and scrambled movies.

34 asure human brain activity evoked by natural movies.

35 om individuals watching intact and scrambled movies.

36 correlation with exposure to smoking in the movies.

37 otors was visibly identifiable in arrhythmia movies.

38 neurons during stimulation with naturalistic movies.

39 the visual world as dynamic neural images or movies.

40 elicited by dynamic stimuli such as natural movies.

41 ly visual areas represent the information in movies.

42 des remarkable reconstructions of the viewed movies.

43 rom CCPs based on single channel fluorescent movies.

44 presentation of drifting gratings and noise movies.

45 Supplementary Movie 1 can be found as Supplementary Information associ

46 fect signaling in a 13-component system (see Movie 1).

47 this Article incorrectly omits Supplementary Movie 1.

48 bacco screen time for youth- and adult-rated movies (42.3% [95% CI, 24.1%-60.2%] and 85.4% [56.1%-100

49 After scanning, participants watched the movies again and continuously rated their experience of

50 Using a natural stimulus, such as a movie, allowed us to keep both smoking and nonsmoking pa

51 : usual care (n = 305), those viewing an NBS movie and brochure (n = 300), and those viewing both the

52 icipants (male and female) watching a 50 min movie and found that event boundaries triggered the rapi

53 nctions among a wide range of stimuli in the movie and in two category perception experiments.

54 we are able to create a real-space spin-wave movie and observe the emergence of a localized soliton w

55 lization of an 8-minute symphony as a silent movie and used it as real-time cue for musicians to cont

56 r-separated microscope image in a time-lapse movie and using only simple means, we simultaneously det

57 To test this assumption, we used natural movies and a quantitative voxelwise modeling and decodin

58 road variety of raw-data formats, as well as movies and animations.

59 imaged in three-dimensional time-lapse (4D) movies and automatically tracked through early cleavage

60 d on the online attention received by songs, movies and biographies, to describe the temporal decay o

61 300), and those viewing both the NBS and DBS movies and brochures (n = 296).

62 ch as histograms, kymographs, frame mosaics, movies and consensus images.

63 cortex of human subjects who watched natural movies and fit the model separately to individual voxels

64 We find that listening to naturalistic audio movies and narrative drives synchronized activity across

65 ul, temporally extended stimuli (i.e., audio movies and narrative).

66 than sighted individuals, but only for audio-movies and narrative.

67 rrelation between exposure to smoking in the movies and other adult content suggests that more resear

68 areas (HVAs) during presentation of natural movies and random dot kinematograms (RDKs) reveals varie

69 Later, we investigate coding of naturalistic movies and show that qualitatively different types of vi

70 poorly understood process through the first movies and targeted manipulations of early embryos devel

71 we stored a full computer operating system, movie, and other files with a total of 2.14 x 10(6) byte

72 politics, abortion, extramarital sex, books, movies, and electoral vote.

73 and test stimuli, the complexity of natural movies, and the control experiments and analyses all sug

74 In sum, MT responses to naturalistic movies are largely consistent with predictions based on

75 The digital frames of these fluorescent movies are then rapidly processed to quantify the count

76 ollection of short audiovisual segments from movies as a proxy to real-life memory formation in 161 s

77 etic Tile Assembly Model and demonstrate AFM movies as a viable technique for directly investigating

78 aradigm using naturalistic face-vocalization movies as memoranda.

79 of the SGPs and PGCs and captured time-lapse movies as the gonadal primordium formed.

80 w subspace analysis (SSA) in case of natural movies as well as translations, rotations, and scalings

81 Memory for sound-movie associations was significantly better when the sti

82 spatial patterns, and elements of a natural movie at levels of contrast and illuminance ( approximat

83 are capable of discriminating a virtual odor movie based on an optically imaged OB odor response vers

84 s these issues, we performed a proteome-wide movie-based screen to systematically identify localizati

85 ar responses to oriented gratings or natural movies became preferentially connected in the absence of

86 that they anticipate certain actions in that movie before those actions occur by looking to parts of

87 was at most a plot device in science fiction movies, but a large corpus of studies now demonstrates t

88 ams is not only prevalent in science fiction movies, but finds numerous technological applications ra

89 nts who share certain tastes in music and in movies, but not in books, are significantly likely to be

90 Depictions of science in television and movies can affect individual health decisions, influence

91 This experiment shows that children who see movie characters use guns are more likely to use guns th

92 Analysis of the US movies clearly demonstrated that tongue motility during

93 they had during the stress, but without the movie clip.

94 with fMRI while they viewed two versions of movie clips (colored, achromatic) of five different obje

95 variety of errors committed by others during movie clips (e.g., figure skaters falling down and perso

96 tive and dynamic analysis of ultrasound (US) movie clips acquired during breast-feeding to explore th

97 ty of the video and tone of the audio in the movie clips are most correlated with changes in facial e

98 iking resemblance to experimental images and movie clips employing fluorescent fusion proteins.

99 We presented participants with brief movie clips multiple times and examined the effect of fa

100 cipants were scanned with fMRI while viewing movie clips of faces, bodies, and objects before and aft

101 rticipants passively listened to three audio-movie clips, an auditory narrative, a sentence shuffled

102 al-life like human behaviors depicted in the movie clips.

103 es when they viewed three different 3-minute movie clips.

104 hich they either watched negative or neutral movie clips.

105 lactis extracted from correlated microscopy movies collected at the two KCl concentrations agreed wi

106 rly when dealing with hundreds of time-lapse movies collected in a high-throughput manner.

107 potential-resolved electrochemical activity movies composed of hundreds of images are obtained in a

108 statistical model of fluorescence microscopy movies comprising numerous frames.

109 Participants watched a movie consisting of two interleaved narratives while we

110 da, our nonmatch-to-sample task used dynamic movies consisting of both facial gestures and the accomp

111 Altogether, the 1400 movies contained 500 tobacco and 2433 alcohol brand appe

112 Toddlers watched a movie containing geometric and social images.

113 ch condition found that children who saw the movie containing guns also played more aggressively and

114 of trigger pulls among children who saw the movie containing guns was 2.8 (interquartile range [IQR]

115 ent holding the gun among children who saw a movie containing guns was 53.1 (IQR, 35.5-53.1) compared

116 To test whether children who see a movie containing guns will handle a real gun longer and

117 igned in pairs to watch a 20-minute PG-rated movie containing or not containing guns in a university

118 to discriminate movies containing rats from movies containing other objects and from scrambled movie

119 ternative forced choice task to discriminate movies containing rats from movies containing other obje

120 ement and moment-to-moment perception of the movie content were highly similar to that of every healt

121 Tobacco and alcohol use in movies could be influenced by product placement agreemen

122 le bipartite graph derived from the Internet Movie Database (IMDB), the significance scores provided

123 es-produced films procured from the Internet Movie Database (IMDb), we obtain several automated metri

124 use crowdsourced keywords from the Internet Movie Database as a window into the contents of films, a

125 Tobacco brands in movies declined after implementation of externally enfor

126 In the scanner, participants first watched a movie depicting everyday activities in a day of an actor

127 tic resonance imaging, 20 volunteers watched movies depicting boxing matches passively or while simul

128 sured with functional MRI while they watched movies depicting unpleasant, neutral, and pleasant emoti

129 The resulting movie directly captures the plasmon dynamics, allowing q

130 ), interestingly, they also exist in Blu-ray movie discs, an already mass-produced consumer product.

131 g transition of single CorA channels: HS-AFM movies during Mg(2+)-depletion experiments revealed the

132 the rapid reinstatement of the just-encoded movie event EEG patterns.

133 ve Battery (MCCB), social cognition with the Movie for the Assessment of Social Cognition (MASC), and

134 h "popped out" in daily life, and enjoyed 3D movies for the first time.

135 Narratives, especially in movie format, are very engaging and can be used to inves

136 mmon formats (JCAMP-DX and NMR) and multiple movie formats.

137 nd temporal correlations between consecutive movie frames arising from intermittent fluorophore activ

138 kably, memorability was also high for single movie frames, even one year post-encoding.

139 using our optimal exposure values to filter movie frames, yielding images with improved contrast tha

140 In a cardiac movie from magnetic resonance imaging, TREND resolves pr

141 quisition systems were tested in 125 optical movies from 5 ex vivo Langendorff-perfused PersAF sheep

142 hat correcting for this motion by processing movies from fast direct-electron detectors allowed struc

143 tologic depictions of heroes and villains in movies have been used since the silent film age.

144 Data can be represented as movies (hundreds of frames) of current (over a surface r

145 They next watched a second nearly identical movie in which some scenes ended differently.

146 easy measurement of movement from high-speed movies in (1) 1-dimensional in vitro models, such as iso

147 he context of random bar stimuli and natural movies in cat.

148 ulses, luminance increases, and naturalistic movies in treated mice.

149 e-lapse imaging to generate super-resolution movies in zebrafish.

150 al patterns of neurotransmitter release ("DA movies") in individual subjects.

151 otion trajectories extracted from the HS-AFM movies indicate that CNTPs exhibit diffusion coefficient

152 mponent) while participants watched a silent movie indicated that dyslexics' perceptual deficiency ma

153 stimulant, UTP, time lapse live cell imaging movies indicated phosphorylated Ser-368 Cx43 separated i

154 able for the intact movie than the scrambled movie, indicating that these regions accumulate informat

155 values of black and white images and a short movie into the genomes of a population of living bacteri

156 d parasol ganglion cells divide naturalistic movies into adjacent spatiotemporal frequency domains wi

157 By translating microscopy movies into searchable databases of bacterial behavior a

158 reproduced across subjects viewing the same movie is highly sensitive to the attentional state of th

159 Although exposure to smoking in the movies is correlated with smoking susceptibility and ini

160 aken at different time-delays, we produced a movie lasting a few trillionths of a second of the elect

161 distribution maps represent a time-resolved, movie-like imaging of the respective compound's formatio

162 ches, and mathematical modeling will provide movie-like, mechanistic, and quantitative description of

163 Whether seeing a movie, listening to a song, or feeling a breeze on the s

164 The behavior of the movie monkey accounted for differences in the looking pa

165 The gaze and head orientation of the movie monkeys alternated between "averted" and "directed

166 video segments depicting unfamiliar monkeys (movie monkeys) displaying affiliative, neutral, and aggr

167 Naturalistic stimuli, such as movies, more closely recapitulate "real life" sensory pr

168 emporally extended meaningful stimuli (e.g., movies/narrative), intermediate for shuffled sentences,

169 1 (IQR, 0.01-0.2) among children who saw the movie not containing guns (adjusted odds ratio, 22.3; 95

170 (IQR, 10.7-16.7) among children who saw the movie not containing guns (adjusted odds ratio, 3.0; 95%

171 er more times than children who see the same movie not containing guns.

172 noscopy movies span tens of minutes, whereas movies obtained with labeled proteins span tens of secon

173 A live-cell movie of green fluorescent protein (GFP)-tagged NS1 of I

174 k and attraction occurs to a computer screen movie of larval motion.

175 A data movie of stochastic optical localization nanoscopy conta

176 Viewing a movie of swaying branches while standing on a branch-lik

177 simulations, we present a detailed molecular movie of the protein quake after carbon monoxide (CO) ph

178 represents the initial frames in a molecular movie of the structural changes during the catalytic rea

179 ns, we construct the full 108-atom molecular movie of ultrafast singlet fission in a pentacene dimer,

180 e present chemically-detailed conformational movies of biological function, extracted data-analytical

181 ting attention to tool motion in overlapping movies of biological motion and tool motion suppressed t

182 In this study, we used time-lapse movies of C. neoformans-infected macrophages to delineat

183 Finally, we generate time-lapse movies of complex neural arborization through automated

184 These two distinct approaches provide movies of electrochemical current as a function of poten

185 Our analysis focuses on time-lapse movies of Escherichia coli cells trapped in a "mother ma

186 fy individual cell divisions from time-lapse movies of explanted Drosophila larval brains, comparing

187 Using 3D confocal microscope movies of GFP-tagged T cells undergoing costimulation, w

188 Pymol scripts together with PDB files allow movies of individual Q- and R-cPCA modes to be visualize

189 sing step towards making atomically resolved movies of molecular reactions.

190 From movies of neutrophil phagocytosis of polystyrene beads,

191 to the ultimate goal of recording molecular-movies of noncrystalline biomacromolecules.

192 recorded EEG during presentation of dynamic movies of people and objects.

193 work and algorithms to intelligently acquire movies of protein subcellular location patterns by learn

194 dynamics simulations now allow us to create movies of proteins folding and unfolding.

195 We observed movies of replisome trafficking during Streptomyces coel

196 Movies of single fluorescent molecules allowed their mov

197 hronous, visual leading and auditory leading movies of speech, sinewave speech or music.

198 models were applied to the initial frames of movies of T cells that had been only partially stimulate

199 Molecular movies of the relevant pathways show the different reorg

200 our cell-phone camera can record fluorescent movies of the specimens as they are flowing through the

201 y an ultrafast electron microscope to record movies of the subsequent electron dynamics on the picose

202 We first made 60-min movies of the transport of photosynthetically assimilate

203 les of Manduca sexta, we produced high-speed movies of x-ray equatorial reflections, indicating cross

204 rack large numbers of migrating nuclei in 4D movies of zebrafish cardiac morphogenesis, suggesting th

205 s would help us to create a truly molecular "movie" of how these important biomolecules work.

206 rious bound ligands, providing a "structural movie" of the catalytic steps.

207 ferent delays are combined into a 'molecular movie' of the evolving molecule, which shows substantial

208 We reconstruct 'movies' of a laser pulse's diffraction, self-focusing an

209 re to smoking and other adult content in the movies on transitioning from (1) closed to open to smoki

210 Real-life activities, such as watching a movie or engaging in conversation, unfold over many minu

211 ntally different options, such as watching a movie or going out for dinner.

212 f bodies alongside emotional words, stories, movies, or facial expressions.

213 containing other objects and from scrambled movies (ordinate-level categorization).

214 emporally structured stimuli such as natural movies, pairs of ganglion cells were modestly more corre

215 Science-fiction movies portray volumetric systems that provide not only

216 ed richly evocative stimulation (an engaging movie) portraying real-world events to elicit a similar

217 mated encoding models with a sampled natural movie prior.

218 ch advance article, we show that an improved movie processing algorithm is applicable to a much wider

219 Using a newly developed statistical movie processing approach to compensate for beam-induced

220 as collaborative scientific experiments and movie production, we propose two variants of GENESCs bas

221 tical modelling of spatial variations in the movie provide insight into future solar cells, 2D materi

222 HS-AFM movies provide unprecedented real-space and real-time vi

223 a new mode where very large volumes of data (movies, ptychographic and multi-dimensional series) can

224 KiT supports 2D, 3D and multi-colour movies, quantification of fluorescence, integrated decon

225 y self-regulation, was found increasingly in movies rated for youth as young as 13 years, despite the

226 ured materials can be viewed as quantitative movies, readily obtained, to reveal active sites directl

227 nstruction of rotavirus VP6, determined from movies recorded with a total exposure of 100 electrons/A

228 itude is also modulated by presentation of a movie recreating the mouse's visual experience during na

229 of head hits in all players was monitored by movie review and post-game interviews.

230 In movies, robots are often extremely humanlike.

231 The movie's executive demands drove synchronized brain activ

232 highly similar qualitative experience of the movie's moment-to-moment executive demands, suggesting t

233 engulfing the prey underwater (Figure 1A-F, Movie S1 in Supplemental Information published with this

234 ique, rhythmic pulsation of their tentacles (Movie S1), first noted by Lamarck nearly 200 y ago.

235 ocampus and is trained to store and replay a movie scene.

236 e LFP spectrum shape and its dependency upon movie scenes and we achieved this with realistic values

237 ng the input to the network across different movie scenes correlated with cross-scene changes of seve

238 Brain activity evoked by movie scenes of smoking was contrasted with nonsmoking c

239 e specimens, indicating that both images and movies should be collected with higher exposures than ar

240 Repeatedly watching the same VR movie significantly reduced both the anteroposterior (62

241 HIDE-enabled nanoscopy movies span tens of minutes, whereas movies obtained wit

242 ation, across subjects randomized to watch a movie spliced with advertisements for Claritin or advert

243 postacquisition synchronization of multiview movie stacks, obtained static high-resolution reconstruc

244 that, like members of the Jedi Order in the movie Star Wars who learn to use "the Force" to do good,

245 racted visual and auditory features from the movie stimulus and mapped the cortical responses to the

246 e from ongoing neural responses to a dynamic movie stimulus.

247 g the last part of each activity, the second movie stopped, and participants were asked to mentally r

248 to murderers with psychopathic features and movies such as No Country for Old Men and We Need to Tal

249 uctuations were more reliable for the intact movie than the scrambled movie, indicating that these re

250 ernal membrane biogenesis are presented in a movie that shows the time development of the chloroplast

251 generates a stack of about a dozen different movies that represent the visual world as dynamic neural

252 At the end of each movie, the labeled leaf was frozen in liquid nitrogen to

253 For movies, the US Library of Congress's National Film Regis

254 Participants viewed a 50-min movie, then verbally described the events during functio

255 In time-lapse movies, these actin filament structures exhibit one of t

256 cent study shows that chimpanzees remember a movie they viewed one day earlier, and their eye movemen

257 study the molecular mechanisms by 'molecular movie.' This article summarizes the latest progress in S

258 and qualitative, executive components of the movie through two additional behavioral investigations.

259 viewers were not reinforced for watching the movies, thus their looking patterns indicated their inte

260 the attended category was not present in the movie; thus, the effect was not a target-detection artif

261 ily extracts from magnetic resonance imaging movie time courses such as breathing and heart rate in c

262 Here we first analyse natural image movies to determine the optimal space-time receptive fie

263 by abstracting common features from natural movies to generalize categorization to new stimuli.

264 ed this idea by using cineradiography (X-ray movies) to characterize and quantify the internal dynami

265 Live-cell movies tracked the intercellular transport of a recombin

266 on, alcohol brand appearances in youth-rated movies trended upward during the period from 80 to 145 p

267 These movies uncover that actin structures dynamically remodel

268 bly naturalistic stimulus (i.e., a Hollywood movie) using a data-driven reverse correlation technique

269 shifts, or event boundaries, during a 50 min movie viewing triggers the rapid memory reactivation of

270 nce of well-defined functional states during movie viewing whose transitions are temporally aligned t

271 In this work, the combination of passive movie viewing with high-density diffuse optical tomograp

272 During movie viewing, participants' brain activity was synchron

273 ar follow-up, controlling for television and movie viewing, video-game playing, parenting, age, sex,

274 rs based on responses during one experiment--movie viewing--identified 35 common response-tuning func

275 ring rest conditions and during naturalistic movie viewing.

276 els throughout the brain during naturalistic movie viewing.

277 acterize neural ToM responses during ASL and movie-viewing tasks.

278 The training package, based on movie vignettes and leader-led discussions, was administ

279 The immediate response to watching the VR movie was an increased level of postural instability.

280 (MTL) during the replay phase of the second movie was associated with detecting changes and with bet

281 ing functional magnetic resonance imaging, a movie was shown, depicting refusal of organ donation bet

282 nd similarity of visual responses to natural movies was not as strong in dark-reared as in normally r

283 mplitude synchronizes across subjects during movie watching and that high-amplitude frames carry deta

284 By altering the artificial attractant movie, we conclude that visual recognition involves both

285 For popular movies, we argue that the consideration of their constru

286 for describing MT orientation from confocal movies, we find that increasing the speed of flows resul

287 al information in two-photon calcium imaging movies, we propose a 3D convolutional neural network to

288 quency power with time courses locked to the movies were observed throughout the cortex.

289 ructured materials, or even record molecular movie, which are impossible using present electron-beam

290 participants 18-88 years old viewed a short movie while brain activity was measured using fMRI.

291 smokers and 17 nonsmokers watched a popular movie while undergoing functional magnetic resonance ima

292 see that when we link all actors in the same movie with each other, the network becomes small-world,

293 In this study, participants watched a movie with two interleaved narratives while their brain

294 image analysis for phase-contrast microscopy movies with an easy-to-use interface for validating the

295 nd their segmentation results, and with 4968 movies with animated cell, scaffold, and contact overlay

296 ded VLPFC neurons during the presentation of movies with congruent or incongruent species-specific fa

297 eir activity, comparing responses to natural movies with those to control stimuli.

298 resolution bringing the so called "molecular movie" within reach.

299 ation of PCA to crowded spectra, images, and movies (without selecting peaks or features) was shown r

300 ically alter spatial correlations in natural movies, without altering their edge structure.