ライフサイエンスコーパス: temporal resolution

1 otic chromosome structure with unprecedented temporal resolution.

2 h hundreds of microelectrodes at microsecond temporal resolution.

3 racellular free calcium, at high spatial and temporal resolution.

4 l populations with cellular spatial and high temporal resolution.

5 maintain high sensitivity to light and high temporal resolution.

6 n a genome-wide scale with great spatial and temporal resolution.

7 of molecular dynamics with high spatial and temporal resolution.

8 nt phenomenon, but requires high spatial and temporal resolution.

9 imaging technique that has high spatial and temporal resolution.

10 g blocks in a noninvasive approach with high temporal resolution.

11 lar signaling networks with high spatial and temporal resolution.

12 reciprocal space and energy space with high temporal resolution.

13 of sentence processing with high spatial and temporal resolution.

14 sing an efficient sampling scheme with a 6 s temporal resolution.

15 rders of magnitude below Kd, they compromise temporal resolution.

16 especially in fMRI studies, which have poor temporal resolution.

17 cell surface receptors with high spatial and temporal resolution.

18 hanism, penetration, spatial resolution, and temporal resolution.

19 any individual neurons with high spatial and temporal resolution.

20 h (AOD) with only coarse (typically monthly) temporal resolution.

21 ng a flexible compromise between spatial and temporal resolution.

22 nvironments at increasingly high spatial and temporal resolution.

23 , both types of models differ in spatial and temporal resolution.

24 subcellular dimensions and a submillisecond temporal resolution.

25 nd (2) a time discrimination task, assessing temporal resolution.

26 has been limited by insufficient spatial and temporal resolution.

27 enabling high sensitivity to light and high temporal resolution.

28 equire complex protocols and provide limited temporal resolution.

29 apping with one of the biosensors) with high temporal resolution.

30 bination of nanometer spatial and nanosecond temporal resolution.

31 d by theoretical modelling, given their poor temporal resolution.

32 eotide spatial precision and sub-millisecond temporal resolution.

33 ccur requires atomic spatial and femtosecond temporal resolution.

34 uman lower extremities with high spatial and temporal resolution.

35 ency than theoretically predicted from their temporal resolution.

36 their function paired with high spatial and temporal resolution.

37 ls within the entire brain, albeit with poor temporal resolution.

38 overexpression of effector proteins, and low temporal resolution.

39 to the extreme requirements for spatial and temporal resolution.

40 vity, which has limited both the spatial and temporal resolution.

41 this signaling molecule with subcellular and temporal resolution.

42 s-phase molecules with atto- to femto-second temporal resolution.

43 probe sensitivity and excellent spatial and temporal resolution.

44 P photoswitching in multiple cells with high temporal resolution.

45 scale in real time requires high spatial and temporal resolution.

46 patterns from single grains with up to 5 ms temporal resolution.

47 ng activity in vivo with precise spatial and temporal resolution.

48 mouse hippocampal neurons over 9 min at 2 s temporal resolution.

49 unction non-invasively with high spatial and temporal resolution.

50 trieval into working memory unfold with high temporal resolution.

51 trol of heart activity with high spatial and temporal resolution.

52 nitors reactions label free with high spatio-temporal resolution.

53 molecular interactions with high spatial and temporal resolution.

54 high degree of stability and submillisecond temporal resolution.

55 substrate gaps and improves both spatial and temporal resolution.

56 haracteristics of pluton emplacement at high temporal resolution.

57 urement of contrast agent kinetics with high temporal resolution.

58 oing neuronal activity with high spatial and temporal resolution.

59 typic switch in drug-resistant bacteria with temporal resolution.

60 ranscriptional repression mechanisms at high temporal resolution.

61 quires volume imaging methods with subsecond temporal resolution.

62 rotoplasts or hypocotyl growth, both at high temporal resolution.

63 f this process with unprecedented tissue and temporal resolution.

64 l resolution to approximately 35 nm with 1-s temporal resolution.

65 ch data is multi-scale and is of high spatio-temporal resolution.

66 phenology is relatively insensitive to data temporal resolution.

67 ories of movements can be measured at a high temporal resolution.

68 populations with minimal loss in accuracy or temporal resolution.

69 essments also use climate data with a coarse temporal resolution.

70 lations with simultaneously high spatial and temporal resolution.

71 cal electrical signals with high spatial and temporal resolutions.

72 requires atomic spatial and few-femtosecond temporal resolutions.

73 xperimentally revealed with high spatial and temporal resolutions.

74 can be probed with unprecedented spatial and temporal resolutions.

75 protein function at unparalleled spatial and temporal resolutions.

76 emental mercury (GEM) concentrations at high temporal resolution (25 Hz) was used to successfully con

77 tion of pollutants or toxic gases, with high temporal resolution (5 s) and order-of-magnitude improve

78 power spectrum of force fluctuations at high temporal resolution (50 kHz) when the protein is either

79 ncoding expression dynamics at unprecedented temporal resolution (6-hourly) in differentiating mouse

80 al location of population centres at a daily temporal resolution across the annual cycle for 10 trans

81 number of MRCP images necessary to achieve a temporal resolution adequate to visualize the physiologi

82 We further show that the high temporal resolution afforded by the isotherm analysis is

83 Arabidopsis (Arabidopsis thaliana) with high temporal resolution allowing for investigations of the t

84 en stimulation patterns with sub-millisecond temporal resolution allowing precise epicardial activati

85 ion in the early Drosophila embryo with high temporal resolution, allowing time-specific and reversib

86 urement of films 'breathing' at second-scale temporal resolution also enabled detailed identification

87 or cytosolic glucose concentration with high temporal resolution and a cytochemical approach to deter

88 be useful for in situ STEM imaging at higher temporal resolution and for imaging beam sensitive mater

89 The single-photon sensitivity, temporal resolution and full-field imaging capability en

90 The two main strengths of MPI are high temporal resolution and high sensitivity.

91 echanisms underlying visual search with high temporal resolution and illustrate how practice influenc

92 remotely be controlled with high spatial and temporal resolution and in addition their action can be

93 The model has high spatial and temporal resolution and integrates real-world demographi

94 tron pulses with sufficient combined spatial-temporal resolution and intensity to literally light up

95 allenging due to insufficient spatial and/or temporal resolution and limitations on microenvironmenta

96 gy tools presently have the combined spatial-temporal resolution and molecular specificity required t

97 ging in live S. cerevisiae with high spatial-temporal resolution and no perturbation of the mRNA biog

98 dynamics at the single-cell level with high temporal resolution and offer a powerful tool to track C

99 study pathologic network dynamics with high temporal resolution and over long time courses, opportun

100 er from low quantum yields that have limited temporal resolution and penetration depth.

101 afast dynamics comes with a tradeoff between temporal resolution and recording length.

102 onmental conditions as they can provide high temporal resolution and require no sample preparation.

103 ifferent PPIs in mammalian cells, with 5 min temporal resolution and signal ratios up to 37.

104 s construction, but such data are lacking in temporal resolution and spatial scope.

105 ed a combination of 100 fs root-mean-squared temporal resolution and sub-Angstrom (0.76 A) spatial re

106 copy with single-molecule resolution at high temporal resolution and the possibility of exchanging bu

107 nse brain activity patterns with high spatio-temporal resolution and to control leg muscles with high

108 give practical recommendations regarding the temporal resolution and use of the time pseudodimension

109 Our approach offers unprecedented temporal resolution and, uniquely, physical transformati

110 es x 0.1 degrees spatial resolution, monthly temporal resolution, and detailed scale-dependent error

111 Due to its modular design, minute-scale temporal resolution, and minimal dark-state leak, FLARE

112 to image cells in vivo with high spatial and temporal resolution, and quantify their interactions usi

113 dynamics in HeLa cells over 25 min at 0.5 s temporal resolution, and visualized dynamic contact-medi

114 r-infrared (NIR) bands with high spatial and temporal resolutions, and found that the infrared camera

115 cations of the sources with high spatial and temporal resolution; and (4) minimize the impact from nu

116 g that competition ChIP is a relatively high temporal-resolution approach.

117 d neuronal network dynamics with high spatio-temporal resolution are critical to understand ACh neuro

118 s of near-field surface displacement at high temporal resolution are elusive.

119 d to monitor these processes with sufficient temporal resolution are scarce.

120 n profiling time series data sets, with good temporal resolution, are becoming available to researche

121 Exploiting the 100-fold increase in temporal resolution as compared with storage ring facili

122 TEMENTDrosophila photoreceptors exhibit high temporal resolution as manifested in frequency response

123 several hundred eV), coupled to femtosecond temporal resolution as well as ultrafast energy-filtered

124 replication and oxygen consumption with high temporal resolution at different growth rates.

125 bing the intermolecular distance change with temporal resolution at microsecond level and structural

126 hat measures individual meal-bouts with high temporal resolution at nanoliter scale.

127 on potentials and stronger stimuli with high-temporal resolution at physiological temperature in indi

128 lly relevant detection limits and high (3 s) temporal resolution, attributes suggesting that the appr

129 This information can be derived at high temporal resolution, based on the intensity fluctuations

130 spatial resolution, whereas fMRI has limited temporal resolution because it measures vascular respons

131 culations, we find that TRANE microscopy has temporal resolution below 30 ps and spatial resolution d

132 During 200-h experiments in a novel high-temporal-resolution bioreactor, DOC concentration decrea

133 mporal resolution eye-tracking data to a low-temporal resolution BOLD signal to extract responses to

134 en studied with techniques that provide high temporal resolution, but cannot resolve individual synap

135 capture entire organelle proteomes with high temporal resolution, but its breadth of labeling is gene

136 ble to track the community diversity at high temporal resolution by calculating phenotypic diversity

137 lso review the methods of achieving a better temporal resolution by employing mode locking techniques

138 mine has been determined with submillisecond temporal resolution by mass spectrometry using nanoelect

139 ing the rat somatosensory cortex with 100-ms temporal resolution by MRI with sensory or optogenetic s

140 mmetric recordings with high sensitivity and temporal resolution, by simultaneously acquiring data fr

141 namic contrast-enhanced MR imaging with high temporal resolution can allow differentiation of osteone

142 ng an imaging detector with high spatial and temporal resolution, can easily be implemented at a time

143 onitoring of Drosophila in 3D at spatial and temporal resolutions capable of resolving the motion of

144 l-time images of the beating heart with good temporal resolution, combined with its noninvasive natur

145 y used neuroimaging method, fMRI, has coarse temporal resolution compared with the time-scale of neur

146 We combined high spatial and temporal resolution confocal laser scanning microscopy w

147 bloom is the priority, the highest possible temporal resolution data should be used.

148 g of neuronal activity with high spatial and temporal resolution deep within scattering brain tissues

149 he system has a response time of 1 ms with a temporal resolution down to 50 mus in high signal-to-noi

150 or have been limited in terms of spatial and temporal resolution due to the inherent three-dimensiona

151 seismic displacement, measured with 1-second temporal resolution during the 30(th) October 2016 Mw 6.

152 mporal patterns of neural activity with high temporal resolution during visual discrimination among a

153 at the macroscale with coarse spatial and/or temporal resolution-e.g., magnetic resonance imaging met

154 , temporal coding is nonlinear, with greater temporal resolution earlier than later in temporally str

155 ranes with a combination of high spatial and temporal resolution essential to better characterize the

156 information from the BOLD signal using high-temporal resolution eye tracking.

157 We registered high-temporal resolution eye-tracking data to a low-temporal

158 o-iliac/visceral arteries and the vena cava (temporal resolution, five images per second; and spatial

159 Ultrafast spectroscopy offers temporal resolution for probing processes in the femto-

160 c advantages of PET are superior spatial and temporal resolutions for quantitative tomographic renal

161 mmercial cantilever's limited combination of temporal resolution, force precision, and force stabilit

162 This system provides subsecond temporal resolution from deep within multicellular struc

163 idence can be modelled at a fine spatial and temporal resolution from health facility data to help fo

164 ve binning', that is identifying clusters at temporal resolution given by task-induced changes in nLF

165 when viewing faces and techniques with high temporal resolution have identified the time-varying tem

166 echniques with plasmonic substrates for high temporal resolution, high sensitivity, and high spatial

167 les to continuous techniques allowing higher temporal resolution, higher sensitivity and, above all,

168 s and are typically employed to achieve high temporal resolution; however, the high degree of coheren

169 jects; (ii) acquire data at high spatial and temporal resolution; (iii) preprocess data to minimize d

170 High temporal resolution imaging techniques localize an early

171 Here, we used high spatial and temporal resolution imaging to characterize MT behavior

172 duced with age in typical development, while temporal resolution improved.

173 of signaling pathways with high spatial and temporal resolution in a wide range of experimental sett

174 wever, been murky because of low spatial and temporal resolution in available datasets, and because o

175 l spectral information with high spatial and temporal resolution in biological tissues.

176 and, by doing so, it reduces the peripheral temporal resolution in coding odor stimuli and allows fo

177 We monitored dopamine levels with subsecond temporal resolution in humans (n = 17) with Parkinson's

178 ielded the highest signal-to-noise ratio and temporal resolution in individual growing cells.

179 endent modulation of gene expression at high temporal resolution in response to nutrient and stress s

180 common PET and SPECT radiotracers with high temporal resolution in small blood volume.

181 he nematode Caenorhabditis elegans with high temporal resolution in the embryo as well as representat

182 -of-function transgenes with precise spatial-temporal resolution in vivo.

183 measured neural activity at high spatial and temporal resolution in zebrafish, Drosophila larvae, and

184 High-temporal resolution information can provide more meaning

185 adband high-contrast nanoprobe for ultrafast temporal resolution is challenging due to the inherently

186 Climate data with a coarse temporal resolution is likely to reduce the accuracy of

187 erosivity is challenging as it requires high temporal resolution(<30 min) and high fidelity rainfall

188 Our work reveals the highest spatial and temporal resolution maps of platelet integrin mechanics

189 nset of frictional motion by performing high-temporal-resolution measurements of both the real contac

190 h involving targeted hormone profiling, high-temporal-resolution micro-array analysis, reverse geneti

191 owever, been limited by the typically coarse temporal resolution (monthly) of global climate models.

192 scale CPD and capacitance information with a temporal resolution much faster than the cantilever band

193 control and drought-stressed plants provided temporal resolution necessary for correlation of network

194 lt of expectation, but this method lacks the temporal resolution necessary to distinguish pre- from p

195 is an ideal tool to provide the spatial and temporal resolution needed for quantification in this in

196 ent, because it affords the moment-by-moment temporal resolution needed to assess contextually approp

197 ) imaging offers more coverage but lacks the temporal resolution needed to distinguish individual spi

198 ed endothelial cells in vitro at high spatio-temporal resolution not easily achieved in conventional

199 The increase in spectral and temporal resolution of (31)P-MRS at ultra high fields (i

200 We demonstrate a temporal resolution of 1.2+/-0.3 fs.

201 tions of in situ nitrate concentrations at a temporal resolution of 15 min.

202 e at a spatial resolution of 1.1-2.5 mum and temporal resolution of 2 Hz for several hours.

203 s was performed in parallel over 4 days at a temporal resolution of 2 min without any need for pumps.

204 long-term trends in bloom timing, data at a temporal resolution of 20 days are likely to be sufficie

205 rod with a spatial resolution of 50 nm and a temporal resolution of 25 picoseconds.

206 brational changes of buffer molecules with a temporal resolution of 6 micros, we have traced proton r

207 uorescence imaging method that increases the temporal resolution of any type of array detector by >5-

208 erformed with a 7.0-T whole-body unit with a temporal resolution of approximately 7 seconds, yielding

209 Limitations in spatial and temporal resolution of available noninvasive recording a

210 sor arrays that can provide high spatial and temporal resolution of chemical signaling.

211 Here, we review the spatial and temporal resolution of climate data used in impact asses

212 present even though they should have better temporal resolution of coding olfactory stimulation at t

213 ential for the wide operating range and high temporal resolution of cone-mediated vision.

214 Because the temporal resolution of data affects the accurate determi

215 ted 21st century climate change, and how the temporal resolution of data influences the detection of

216 This allowed temporal resolution of early integrin-RGD binding and th

217 ustic and fMRI findings by using the greater temporal resolution of electroencephalography to investi

218 tial resolution of optical probes, or by the temporal resolution of electronic probes.

219 n reverse genetic screens to investigate the temporal resolution of essential genes in mES cells, and

220 sue for the first time by combining the high temporal resolution of event-related potentials (ERPs) a

221 The high spatial and temporal resolution of fMRI affords detailed mapping of

222 However, the low temporal resolution of fMRI measures could determine nei

223 le microfluidic platform for generating high temporal resolution of glucose uptake profiles, and cons

224 We utilized the improved temporal resolution of human intracranial electrocortico

225 Here we combine the inherent temporal resolution of infrared (IR) spectroscopy with t

226 tial resolution and the inherent femtosecond temporal resolution of lasers, laser-induced electron di

227 iac MR and 320-section multidetector CT at a temporal resolution of less than 50 msec.

228 Taking advantage of the high spatial and temporal resolution of light control, optobiology promis

229 uitable ion channels, and by low spatial and temporal resolution of neuronal activation when TRP chan

230 ased systems in real-time are obtained, with temporal resolution of one cavity round trip and frequen

231 ovel evidence linking alpha frequency to the temporal resolution of perception.

232 separations were performed in <30 s, and the temporal resolution of the online MD-CE assay was <60 s.

233 the nanocalorimeter coupled with the 0.1 ms temporal resolution of the TOFMS provides a new measurem

234 -scale spatial resolution, and the ultrafast temporal resolution of UEC represent the key elements th

235 The temporal resolution of ultrafast electron diffraction an

236 (ie, their color) with the high spatial and temporal resolution of ultrasonography (US).

237 wo-flash fusion thresholds (a measure of the temporal resolution of visual perception) and the freque

238 oscillations should predict variation in the temporal resolution of visual perception.

239 proaches that can tackle varying spatial and temporal resolutions of each data source and generate in

240 n up to 1000 single cells per experiment, at temporal resolutions of sub-seconds to seconds.

241 us to simultaneously record, with sufficient temporal resolution, only a small fraction of the networ

242 haeology and population genetics lack either temporal resolution or formal quantification of the unde

243 of one region on another are either based on temporal resolution, or require a predefined model for t

244 sequencing data from budding yeast, in high temporal resolution over ca. 2.5 cycles of the short-per

245 developing organisms in 3D at unprecedented temporal resolution over long periods of time.

246 ible and IR spectroscopy, providing complete temporal resolution over the picosecond-microsecond time

247 In the absence of high-temporal resolution palaeoclimate reconstructions, this

248 High-temporal-resolution phase-contrast imaging was performed

249 Transcriptomic analyses with high temporal resolution provide substantial new insight into

250 omposite nanomaterials with high spatial and temporal resolution provides a key understanding of allo

251 propagates at previously unattainable spatio-temporal resolutions, providing new insights into severa

252 We analysed high-temporal-resolution records of iceberg-rafted debris der

253 sample circuitry across large volumes at the temporal resolution relevant to neural circuit function

254 ed tomography with its excellent spatial and temporal resolution remains a valuable diagnostic modali

255 o capture dynamic muscle activity due to the temporal resolution required for kinetic measurements du

256 n spike timing information and increases the temporal resolution required for optimal intensity encod

257 Imaging at the temporal resolution required to establish accurate track

258 ional light microscopy lacks the spatial and temporal resolution required to track complex pseudopods

259 e performance with high sensitivity and good temporal resolution requires careful design of the absor

260 e cells over extended time periods with high temporal resolution requires high-density labeling and e

261 In Narragansett Bay, increased temporal resolution reveals active NCLDVs with both 'boo

262 vivo neurotransmission due to its subsecond temporal resolution, selectivity, and sensitivity.

263 s (several hundred at a time) with such high temporal resolution (so we can know the direction of com

264 s high spatial (probe volumes of 3.4 pL) and temporal resolution (sub mus) information on the flow be

265 EEG recordings provide high temporal resolution suitable to relate cortical oscillat

266 Here, we present new high temporal resolution techniques for investigating dissolv

267 electrical stimulation, and allows a higher temporal resolution than pharmacological interventions.

268 l changes of biomolecules with much improved temporal resolution than the conventional method.

269 ate extremes on ecosystem functions at finer temporal resolutions than based on diurnal mean temperat

270 ovide greater robustness and measures of the temporal resolution that can be obtained from pseudotime

271 electrodes provides a degree of spatial and temporal resolution that is ideal for analysis of networ

272 ypical axonal connection distances, and at a temporal resolution that matches synaptic delays.

273 stricted to a few geological archives of low temporal resolution that record trace element deposition

274 Gap detection is a measure of auditory temporal resolution that relies on the auditory cortex (

275 did this by tracking, with high spatial and temporal resolution, the cell's mechanical behavior duri

276 allowed researchers to characterize, in high temporal resolution, the emerging representation of obje

277 Imaging, to investigate at high spatial and temporal resolution, the sensory evoked population respo

278 owever, current geochemical records lack the temporal resolution to address the nature and timing of

279 measure lymph velocity at sufficiently high temporal resolution to resolve the dynamic pulsatile flo

280 idirectional cooling provide the spatial and temporal resolution to separate contributions from solid

281 -enhanced MRI protocol with high spatial and temporal resolutions to quantify regional BBB permeabili

282 patial resolution), we find that the spatial/temporal resolution tradeoff shifts dramatically: after

283 ell membranes were obtained with millisecond temporal resolution using a scientific complementary met

284 ependence of the electrostatic force at high temporal resolution using General acquisition Mode (G-Mo

285 nels with a time-resolved capability ( 40 ps temporal resolution) using fewer than N(2) optical measu

286 ensitive dyes, we imaged at high spatial and temporal resolution V1 population responses evoked by th

287 Temporal resolution was 5.9-7.5 seconds.

288 h optical gating of PINEM electrons, imaging temporal resolution was improved by a factor of 3 or bet

289 quantitative microscopy at high spatial and temporal resolution, we show that granule genesis in Pse

290 nvironmental archive, Posta Fibreno offers a temporal resolution which is 10x greater than any terres

291 y high spatial resolution and (ii) very high temporal resolution, which are available through the Goo

292 ell interactions or drug effects with spatio-temporal resolution while preserving cell integrity, and

293 manipulation of neurons at high spatial and temporal resolutions, while simultaneously recording ele

294 to control the activity of Cas9 with a high temporal resolution will facilitate tight regulation of

295 equirement for achieving the ultimate spatio-temporal resolution with either method.

296 Light perception and temporal resolution with the implant ON were achieved in

297 tribution can be done at various spatial and temporal resolutions with metrics derived from online ad

298 Further improvements may lead to femtosecond temporal resolution, with negligible pump-probe jitter b

299 chanical microscopy methods with high spatio-temporal resolution within a single cell.

300 T2* were each quantified in the calf at 2-s temporal resolution, yielding a dynamic time course for