ライフサイエンスコーパス: brightness

1 port neuronal voltage dynamics as changes in brightness.

2 olor printing with high color saturation and brightness.

3 nstants, diffusion coefficients, and species brightness.

4 ed light (upconversion) with relatively high brightness.

5 performs poorly for mRNA imaging due to low brightness.

6 though at the expense of decreased molecular brightness.

7 ve color performances such as saturation and brightness.

8 ted excitation spectrum without reduction in brightness.

9 loss, cracking, postharvest shelf-life, and brightness.

10 m have resulted in undesirable reductions in brightness.

11 elanopsin-dependent measure of environmental brightness.

12 t, while offering faster kinetics and higher brightness.

13 var Micro-Tom for mutants with altered fruit brightness.

14 designing materials with enhanced efficiency/brightness.

15 l association between pitch height and value/brightness.

16 buried in noise in darkness nor saturated in brightness.

17 gates provided a 10-7000-fold improvement in brightness.

18 stances have been documented with -11 to -13 brightness.

19 pplying new seeds for cloud condensation and brightness.

20 l scanning in 3D and indicators with limited brightness.

21 d the possibility of dissociating pitch from brightness.

22 ensions: auditory location, pitch, or visual brightness.

23 ear-100% internal quantum efficiency at high brightness.

24 not aggregate inside Chlorella sp. (average brightness = 5.330), while it aggregates in the supernat

25 m) while still possessing a high fluorophore brightness, absorption bands in the near-UV and visible

26 dots with tunable and equalized fluorescence brightness across a broad range of colours.

27 ) or spectral centroid (eliciting changes in brightness, an important attribute of timbre), with the

28 Brightness-an aspect of timbre or sound quality-allows u

29 nd bleomycin can be quantified by Number and Brightness analysis and Raster-scan Image Correlation Sp

30 mage correlation spectroscopy and number and brightness analysis combined with fluorescence recovery

31 Number and brightness analysis confirmed actin-dependent CD44-YFP c

32 sonance energy transfer (FRET) and molecular brightness analysis of fluorescence correlation spectros

33 Brightness analysis of fluorescence fluctuation experime

34 The technique is based on brightness analysis of fluorescence fluctuations from th

35 in the oligomerization state of the SERT via brightness analysis of single diffraction-limited fluore

36 nce correlation spectroscopy-based molecular brightness analysis revealed that the studied molecules

37 Number and brightness analysis shows that the eisosome-associated f

38 Number and brightness analysis suggests that BaP does not aggregate

39 Results obtained by applying conventional brightness analysis to fluorescently tagged proteins wit

40 Here we extend brightness analysis to the nuclear envelope (NE), a doub

41 ence correlation spectroscopy and number and brightness analysis.

42 atus of native 5-HT2C receptors by molecular brightness analysis.

43 gomerization in living cells using molecular brightness analysis.

44 CP-PHOLED that achieves both a display level brightness and a high gEL factor.

45 emission, with high quantum efficiencies and brightness and also exhibit excellent pH stability spann

46 Laser pulses can provide extreme brightness and are typically employed to achieve high te

47 yields the corresponding optical control of brightness and color across the visible spectrum.

48 ing subcellular Bragg lamellae to change the brightness and color of reflected light.

49 Cones provide brightness and color signals to visual cortex.

50 nclusions on the relationships between fruit brightness and cuticle features were as follows: (1) scr

51 her decipher the relationships between fruit brightness and cuticle in tomato, we screened an ethyl m

52 The combination of both very high brightness and deep blue emission from phosphorescent or

53 c image acquisition rates for a given sample brightness and detector technology.

54 g diodes (PeLEDs) exhibit electroluminescent brightness and efficiency above 53 000 cd m(-2) and 4%:

55 igand complexes, dramatically increasing the brightness and efficiency of intramolecular energy trans

56 s essential to simultaneously achieving high brightness and high efficiency.

57 s as fluorophores due to their extraordinary brightness and high photostability that are far superior

58 ize the electron pulses in terms of temporal brightness and image reconstruction.

59 However, the color saturation, brightness and incident angle tolerance of structural co

60 activation of BODIPY fluorescence with large brightness and infinite contrast.

61 The increased intracellular brightness and large Stokes shift ( approximately 180 nm

62 meric scaffolds and show marked increases in brightness and long-term photostability relative to thei

63 Here we describe optical observations of the brightness and magnetic field of the cool white dwarf WD

64 dth of such plasma devices limits the source brightness and makes it difficult for the FEL instabilit

65 By taking advantage of their extreme brightness and minimal cytotoxicity, we performed, for t

66 a three order of magnitude increase in X-ray brightness and over an order of magnitude increase in X-

67 Monomeric NTnC has higher brightness and pH-stability in vitro compared with the s

68 Photophysical properties (2PA brightness and phosphorescence quantum yields and lifeti

69 light sources can significantly enhance the brightness and photon energy of their X-ray pulses by un

70 Recently, FbFPs with improved brightness and photostability have been engineered.

71 Most quantitative comparisons of the brightness and photostability of different fluorescent p

72 le structural modification that improves the brightness and photostability of dyes while preserving s

73 these derived compounds retain the superior brightness and photostability of the JF dyes, enabling i

74 2 and iRFP670 proteins exhibited the highest brightness and photostability under one-photon and two-p

75 Examples include limited brightness and photostability, phototoxicity in live-cel

76 structures elicits substantial increases in brightness and photostability, resulting in the Janelia

77 Energy Transfer (FRET) biosensors depends on brightness and photostability, which are dependent on th

78 The methods for calibrating the brightness and photoswitching measurements in microfluid

79 s but also influences quality traits such as brightness and postharvest shelf-life.

80 indings support the idea of using Number and Brightness and Raster-scan Image Correlation Spectroscop

81 inal surface all were segmented to allow the brightness and reflectivity of the pixels in the choroid

82 m yield (QY) up to 12% as well as sufficient brightness and resolution to be suitable for optoelectro

83 inorganic nanoparticles with relatively low brightness and short-near-infrared (NIR) emission.

84 rbanisation and is increasing in its extent, brightness and spectral range.

85 ironments that have high ultraviolet surface brightness and star-formation surface density.

86 This new TTA system has robust brightness and the longest anti-Stokes shift of any repo

87 rs, QuasAr1 and QuasAr2, which show improved brightness and voltage sensitivity, have microsecond res

88 furthermore they presented higher values of brightness and WI.

89 proved photostability, while maintaining the brightness and zinc(II) sensibility of their AVB progeni

90 n enhanced fluorescence imaging via improved brightness and/or photostability.

91 hs (blocking up to 40 per cent of the star's brightness) and asymmetric profiles, indicative of a sma

92 efficiency yielding to unprecedentedly-high brightness, and compare them to those of co-expressed bf

93 he advantages of good biocompatibility, high brightness, and easy biofunctionalization.

94 ill need improvements in sensitivity, speed, brightness, and membrane trafficking before this goal ca

95 conjugates show increases in photostability, brightness, and reduced fluctuations in transient fluore

96 to validate the high degree of circularity, brightness, and stability of this light source.

97 high photostability and strong photoacoustic brightness are designed and synthesized, which results i

98 images, and show that rankings of test disk brightness are independent of viewing distance, implying

99 mission surpluses were observed in 2012, the brightnesses are sufficiently low in the 2014 images to

100 some white dwarfs with strong fields vary in brightness as they rotate, which has been variously attr

101 erization state in vivo using the number and brightness assay.

102 cause they often exhibited morphological and brightness asymmetries that may result from gravitationa

103 Because the brightness at a layer establishes the oligomeric state o

104 racterized by noticeable and fast changes in brightness at all frequencies.

105 xperimental raw brightness with the physical brightness at each layered compartment.

106 d properties, such as UCNPs with exceptional brightness at single molecule imaging powers.

107 Long-duration observations of Neptune's brightness at two visible wavelengths provide a disk-ave

108 thus enabling the production of ultrahigh 6D-brightness beams.

109 alloy exhibit a low turn-on voltage and high brightness because of the ionic conductivity of the comp

110 High-brightness blue perovskite light-emitting diodes (PeLEDs

111 ing diodes (Tr-QLEDs) are reported with high brightness (bottom: approximately 43 000 cd m(-2) , top:

112 ed when base stacked and some maintain their brightness, but there has been little progress toward de

113 ngineering a monomeric FP, for enhancing its brightness by directed evolution, and for thoroughly cha

114 rs used in display applications achieve high brightness by harvesting triplet populations via thermal

115 era for photon science, improving the X-ray brightness by ten orders of magnitude over previously av

116 luorescence quantum yields (ca. 0.5-0.7) and brightness (ca. 35000-40000 M(-1) cm(-1)).

117 bles concomitant phasor and cross Number and Brightness (cN&B) analysis, we measure the nuclear dynam

118 ew areas of science due to their exceptional brightness, coherence, and time structure.

119 n NPLs (L-NPLs) are highly fluorescent, with brightness comparable to that of wavelength-matched quan

120 ry of each layer along with fluorescence and brightness contributions from adjacent layers generates

121 Here, we use a recently extended brightness data set (1972-2014), with physically realist

122 g brightness increments (ON) and T5 cells to brightness decrements (OFF).

123 nversely, Tm1 and Tm2 respond selectively to brightness decrements, with the response of Tm1 delayed

124 nal quantum efficiency of 15.3% at such high brightness, demonstrating performance to overcome the la

125 sions demonstrate that an object's perceived brightness depends on its visual context, leading to the

126 ed to the hue-saturation plane and the value/brightness dimension of color, respectively.

127 Increased image brightness due to increased retardance reveals where mic

128 co-expressed bfloGFPc1 showing extremely-dim brightness due to low (0.1%) quantum efficiency.

129 With a favorable combination of brightness, dynamic range and speed, ASAP1 enables conti

130 ED-2003 retained up to 90% of their initial brightness, easily conjugated with protein and showed lo

131 For the brightness encoding studies, we examined the action of D

132 fer (TBET), these probes exhibit the highest brightness enhancements reported for any bioorthogonal f

133 duced fluorescent proteins retain their high brightness even at the maximum density in solid state th

134 The infrared brightness evolution is dominated by beat patterns cause

135 properties, including very high fluorescence brightness, excellent photostability, and sensing capabi

136 e fluorescent proteins suitable for tricolor brightness experiments.

137 ee solution by simultaneous readout of their brightness, fluorescence anisotropy, fluorescence lifeti

138 Because of their high brightness, fluorescence imaging of a single carbon dot

139 ovel imaging light source with unprecedented brightness for a speckle-free and narrowband light sourc

140 simultaneous space-time resolution but also brightness for sufficient image contrast to capture the

141 bsorptivity; there is a 136-fold increase in brightness for the enzymatically produced reporter versu

142 he 5- and 7-methine dyes exhibit exceptional brightness for their respective spectral regions.

143 ficiency (peak EQE = 7.4%) and a record-high brightness (>100 000 cd m(-2) ) of deep-red emission, al

144 The NHC EBLs enable very high brightness (>7,800 cd m(-2)) operation, while achieving

145 ed performance in HOCl sensing, such as high brightness, ideal far-red to NIR optical window, excelle

146 tion illusion magnitude but not with size or brightness illusion magnitude.

147 lusion magnitude but not with orientation or brightness illusion magnitude; in contrast, occipital GA

148 Brightness illusions demonstrate that an object's percei

149 s object representations should also produce brightness illusions.

150 An R package for performing number and brightness image analysis, with the implementation of a

151 against a single target to achieve improved brightness in fluorescence detection of nucleic acid tar

152 e iRFP713/Val256Cys protein with the highest brightness in mammalian cells among available NIR FPs.

153 ensions of color (hue, saturation, and value/brightness) in 15 subjects who possessed "pitch class-co

154 ing results in a strong increase in emission brightness, in local reactive species concentration, and

155 , the extreme optical outburst of 2016-2017 (brightness increase of six magnitudes) occurred when the

156 l input channels, and distinct processing of brightness increment and decrement signals.

157 ssed by two major thalamic pathways encoding brightness increments (ON) and decrements (OFF).

158 th T4 cells responding selectively to moving brightness increments (ON) and T5 cells to brightness de

159 e neurons Mi1 and Tm3 respond selectively to brightness increments, with the response of Mi1 delayed

160 ich has been variously attributed to surface brightness inhomogeneities similar to sunspots, chemical

161 rom the background and compensates for local brightness inhomogeneities.

162 res were as follows: (1) screening for fruit brightness is an effective way to identify tomato cuticl

163 o identify tomato cuticle mutants; (2) fruit brightness is independent from wax load variations; (3)

164 However, their brightness is limited, and they do not operate in the fa

165 to maximize local connections where a node's brightness is made proportional to its local fitness.

166 Antibody fluorescent brightness is one of the key parameters that is of criti

167 ient excitation energy transfer, whereas the brightness is raised due to the increased absorption cro

168 Given their ratiometric readout, their brightness, large dynamic range and linear response prop

169 xhibit near-infrared fluorescence, ultrahigh brightness, large Stokes shifts, and excellent cellular

170 At practical brightness level of 1000 cd m(-2), the optimized devices

171 tween chromophore structural environment and brightness level.

172 nd with low efficiency roll-off at practical brightness level.

173 Here, we report high-brightness light-emitting diodes based on solution-proce

174 ciple common to many different approaches to brightness/lightness phenomena; furthermore, object-size

175 o the host galaxies of the quasars in [C ii] brightness, linewidth and implied dynamical mass, but do

176 dition to their long-range capability, their brightness, long lifetime, lack of blinking, and chemica

177 asmas have been demonstrated to produce high-brightness-low-emittance beams, it is possible to envisa

178 tching, bio-labeling compatibility, and high brightness make photoswitches broadly applicable.

179 Here we report a longitudinal thermal brightness map of the nearby transiting super-Earth 55 C

180 se curve--from visible-wavelength whole-disk brightness measurements as a function of orbital phase.

181 Calculations show that -12 brightness meteors can generate audible sound at 25 dB

182 se tuning eliminates a 100-fold red-to-green brightness mismatch of size-tuned quantum dots at the en

183 lume could arise from auroral emission, of a brightness more than 1,000 times that of the Earth's aur

184 earby sources, or to account for its unusual brightness, more than a factor of ten above what is expe

185 n, thus highlighting the potential of tomato brightness mutants for advancing our understanding of cu

186 rough lipofection by applying the Number and Brightness (N&B) approach.

187 First, we used number and brightness (N&B) microscopy to characterize protein mult

188 wever, current luciferase reporters lack the brightness needed to visualize events in deep tissues.

189 uptions, with a ten-thousandfold increase in brightness, occur in classical novae and are caused by a

190 s in ultra-bright gamma-photon emission with brightness of 10(25) photons/s/mm(2)/mrad(2)/0.1%BW at

191 cient electroluminescence is achieved with a brightness of 10 590 cd m(-2) .

192 with unprecedented power of 6.7 PW and peak brightness of 10(25) photons/s/mm(2)/mrad(2)/0.1% BW (at

193 E) of 20.7% and EQE = 14.6% at the practical brightness of 100 cd m(-2) .

194 (PhiF = 0.20-0.25), resulting in an average brightness of 1900 M(-1) cm(-1).

195 he size of diffraction-limited spots and the brightness of a few activated GECI proteins.

196 5-HT2C receptors equivalent to the molecular brightness of a homodimer.

197 malizing their fluorescence intensity by the brightness of a tBid monomer, measured separately using

198 The brightness of an active galactic nucleus is set by the g

199 owledge, this results in the highest average brightness of an adenine analogue inside DNA.

200 tions that dramatically improve the absolute brightness of Arch, as confirmed biochemically and with

201 tability, ease of production, small size and brightness of CpcA-PEB and CpcA-PCB demonstrate the pote

202 raw brightness that conceals the underlying brightness of each individual layer.

203 lusters the pixels as blobs according to the brightness of each pixel to generate a blob table.

204 viscosity of 652.12mPas and a high degree of brightness of extracted beta-d-glucan fraction.

205 psin family voltage-sensing domains with the brightness of genetically engineered protein fluorophore

206 In other words, the brightness of guanine chemiluminescence was quenched due

207 ive analysis was achieved by calculating the brightness of images scanned by an office scanner.

208 n shown to drive the tunability of color and brightness of light reflected from specialized cells in

209 ticeable to the naked eye as a change in the brightness of light transmitted by the metamaterial.

210 consistent with a doubling of the molecular brightness of mCherry-tagged beta1-integrins measured us

211 We measure the relative brightness of mid-luminance test disks embedded in gray-

212 The brightness of our visual environment varies tremendously

213 ce of optoelectronic devices and enhance the brightness of QD probes for bioimaging.

214 The ever-increasing brightness of synchrotron radiation sources demands impr

215 and the gas infall rate is regulated by the brightness of the active galactic nucleus; this feedback

216 the test disks, can account for the relative brightness of the disks.

217 We observe a significant increase in the brightness of the emissive MC form, in the duration of i

218 orresponding error are dependent on both the brightness of the focus, and the cellular context.

219 The infrared brightness of the host star, combined with its Jupiter-l

220 t and nocturnal scenarios, largely enhancing brightness of the individuals and matching the sensitivi

221 e microlensing signal does not depend on the brightness of the lensing object.

222 The brightness of the lyophilized Pdots was at least as good

223 ust, and large discrepancies in the inferred brightness of the optical background have resulted.

224 the spatial distribution of the fluorescence brightness of the original image is not skewed.

225 ysis indicates that the average per-particle brightness of the Pdots is approximately 6 times higher

226 alysis reveals that the average per-particle brightness of the Pdots is at least 6 times higher than

227 The brightness of the pH nanoparticles was increased by more

228 The brightness of the QD fluorescence is greatly enhanced on

229 ards the Galactic Centre than is the surface brightness of the soft-X-ray population.

230 ) cause a temporary decrease in the apparent brightness of the star, providing a direct measure of th

231 Such arrays enhanced the brightness of the tagged mRNA molecules by up to ~17 fol

232 To increase the brightness of these aptamer-fluorogen systems, we constr

233 Measurement of the absolute brightness of this background is complicated by local fo

234 efficiencies of 0.62, 0.57, and 1.9 cd/A and brightnesses of 59, 160, and 1284 cd/m(2), respectively.

235 a 3.56-hour period close binary, pulsing in brightness on a period of 1.97 minutes.

236 ear relationship is observed between the sky brightness on clear and overcast nights, with a change i

237 polarization signals without modifying their brightness or color.

238 two previous reports suffered from very low brightness or gEL values.

239 lectron bunches, and opens a path towards 5D-brightness orders of magnitude larger than state-of-the-

240 al strong millisecond flares and significant brightness oscillations at frequencies >/=40 Hz.

241 erns with large areas decreasing in observed brightness over this period.

242 In contrast to women, men had higher brightness perception and faster reaction times in a sus

243 Furthermore, brightness perception during blue-enriched light signifi

244 0 K (non-blue-enriched), and their impact on brightness perception, vigilant attention and sleep phys

245 vidual differences in size, orientation, and brightness perception.

246 on, we have quantitatively characterized the brightness, photostability, pH stability and monomeric p

247 e-electron lasers providing ultra-short high-brightness pulses of X-ray radiation have great potentia

248 tive intense red emission (610 nm) with good brightness (quantum yield more than 90%), which is an es

249 Conventional high-brightness radio-frequency accelerating structures opera

250 Because of its high brightness, real-time detection of metastases with the n

251 ic screening and a gradual change in polymer brightness, reflecting release of intercalated YOYO-1 dy

252 First, we tested several GEVIs for 2P brightness, response speed, and voltage sensitivity.

253 ype of device offers new routes to power and brightness scaling in semiconductor lasers, and opportun

254 To compensate for reduced brightness, selection apparently resulted in extensive t

255 ical upper limit on the optical background's brightness similar to the integrated light from galaxies

256 erformance-limiting tradeoffs between modest brightness, sluggish kinetics and limited signalling dyn

257 the continental trend is towards increasing brightness, some economically developed regions show mor

258 -wakefield accelerators, and generating high-brightness, spatially coherent x-rays.

259 of this platform by using DNA origami-based brightness standards, demonstrating that 80 fluorophore

260 ot alter TRAX-translin assembly to C3PO, and brightness studies suggest one PLCbeta binds to one C3PO

261 s that present a challenging environment for brightness studies with fluorescence fluctuation spectro

262 similar coincident variability in Neptune's brightness suggests nucleation onto GCR ions.

263 n significant advantages in terms of tunable brightness, superb photo- and physical stability, good b

264 mely a light curve that is typical of normal-brightness supernovae, but with strong titanium absorpti

265 detection methods, particularly at the high brightness synchrotron light sources, are making SXS an

266 phase curve, we also constrain the nightside brightness temperature of the planet to 1,380 +/- 400 ke

267 lts permit more accurate estimates of source brightness temperatures, and open opportunities for quan

268 m adjacent layers generates a convoluted raw brightness that conceals the underlying brightness of ea

269 frared wavelengths than previously thought-a brightness that could be detected by future telescopes.

270 termed pCOMB (pair correlation of molecular brightness) that tracks the mobility of different oligom

271 ceive the associated change in environmental brightness, the representation of such very slow alterat

272 This allows large differences of molecular brightness to be handled which turns out to be critical

273 designs direct ET in UCNPs to enhance their brightness, to maximize desired emission wavelengths, to

274 scribed azimuthal and polar directions, with brightness two orders of magnitude higher than that from

275 s) based on DPA give pure blue emission with brightness up to 6,627 cd m(-2) and turn-on voltage of 2

276 novel and general approach for measuring the brightness using antibody-avid polystyrene beads and flo

277 reen (G), blue (B), hue (H), saturation (S), brightness (V), and gray (Gr) were measured from each pi

278 The resulting particles exhibit brightness values (molar extinction coefficient (epsilon

279 FCS with PCH revealed molecular brightness values for native 5-HT2C receptors equivalent

280 We predict that brightness variations in the ultraviolet light curve tra

281 Brightness variations were previously associated with th

282 ously puzzling behaviors seen in brown dwarf brightness variations.

283 mic range (Fmax /F0 approximately 130), high brightness (varphif =14.4 % at 150 mM of K(+) ), and ins

284 We show that donor brightness (via PIFE) and energy transfer efficiency (vi

285 tion vision rather than using radiance (i.e. brightness) vision is lacking.

286 ceptor, global analysis of construct quantal brightness was consistent with the predominant form of t

287 Exploiting the unique brightness, we have recorded the first photon antibunchi

288 ycling underpins the mechanism for increased brightness, we present the first room-temperature measur

289 d by the World Atlas of Artificial Night Sky Brightness were found to be overestimated by ~25%; our d

290 ption states that fluorophores have the same brightness when free in solution as they do in close pro

291 to a problem that has limited resolution and brightness when imaging living samples.

292 The source possesses high peak brightness, which allows each image to be recorded with

293 es fluorescent proteins (FPs) with different brightness, which thus offers the rare opportunity to id

294 igh level of optimisation that achieves high-brightness white in a thin low-mass-per-unit-area anisot

295 otifs important for determining fluorescence brightness with a generative algorithm, the probability

296 Direct measurements of the brightness with common spectroscopy methods are challeng

297 to interpret the unexpected evolution of the brightness with the laser power taking into account the

298 a method that connects the experimental raw brightness with the physical brightness at each layered

299 This probe exhibits excellent brightness, with an emission maximum of 705 nm.

300 ons at sub-microsecond timescales using high-brightness X-ray facilities.