ライフサイエンスコーパス: flash

1 parent motion) or segregation (two unrelated flashes).

2 of the streamers, which leads to the ensuing flash.

3 racted from responses to the photopic single flash.

4 th 30-Hz flicker and 3.0 cd/s/m2 single-cone flash.

5 cy multiplied by the average severity of hot flashes.

6 en venlafaxine or placebo for control of hot flashes.

7 ed with events such as terrestrial gamma-ray flashes.

8 scotopic electronegative response to bright flashes.

9 scotopic electronegative responses to bright flashes.

10 ects than did pills for the treatment of hot flashes.

11 How fast are flashes?

12 Highest estimates were for photopic single-flash a-wave and b-wave amplitudes (0.84 and 0.85, respe

13 ing parameters: scotopic standard and bright-flash a-wave implicit times, photopic 30-Hz flicker and

14 ithin approximately 100 ms together with one flash, a second illusory flash is often perceived.

15 In FLASH, a stable structure is adopted by the domain that

16 ge and become independent of GRK1 levels for flashes activating more than approximately 1% of cone pi

17 to interacting with the N-terminal region of FLASH, also contacts the C-terminal SANT/Myb-like domain

18 with fewer adverse effects for managing hot flashes among breast cancer survivors; however, these pr

19 Analysis of flash amplitudes suggests they represent the quantal pro

20 ino acids of Mxc are required for recruiting FLASH, an essential histone mRNA-processing factor, to t

21 s will reduce patient exposure to the camera flash and could provide sufficient quality images to rel

22 zation at the soft X-ray free-electron laser FLASH and demonstrate facility-wide timing to better tha

23 rosophila brain revealed unknown features of FLASH and DWI with potential applications in characteriz

24 ly disappearing, I reappears without another flash and reaches a second maximum before disappearing c

25 Fluorogenic dyes such as FlAsH and ReAsH are used widely to localize, monitor, an

26 Thus, the HLB concentrates FLASH and U7 snRNP, promoting efficient histone mRNA bio

27 e developed during the late stage of a cloud flash and was initiated in a decayed branch of the latte

28 ne H2aV, we find that failure to concentrate FLASH and/or U7 snRNP in the HLB impairs histone pre-mRN

29 on such that they perceived equal numbers of flashes and beeps for bi-modal stimuli.

30 ve integrative intervention for managing hot flashes and improving quality of life in women with brea

31 th modest reductions in the frequency of hot flashes and vaginal dryness but no significant reduction

32 tting operations occur by design (condensate flashing and liquid unloadings), they occur more than an

33 U7 snRNP, the FLICE-associated huge protein (FLASH) and histone pre-mRNA cleavage complex (HCC) consi

34 or stimuli presented sequentially (series of flashes) and simultaneously (clouds of dots); both for m

35 orates a digital camera, a retinal bleaching flash, and a Ganzfeld light source inside a pair of ligh

36 Hot flashes are a common and debilitating symptom among surv

37 Flashes are episodic, lasting approximately 20 s, and ma

38 ons show that many or possibly all lightning flashes are initiated by fast positive breakdown.

39 Lightning flashes are known to initiate in regions of strong elect

40 per test cartridge along with using a camera flash as the light source allows on-site halocarbon dete

41 mmunohistochemistry (IHC), in cellulo by TOP-Flash assay.

42 ng with TrkC-miR2 overexpression and TOP/FOP flash assays confirmed the positive effect of TrkC-miR2

43 ult search task during which two probes were flashed at varying delays.

44 cant for all parameters (except scotopic dim-flash b-wave implicit time), ranging from 0.34 to 0.85.

45 cit times, photopic 30-Hz flicker and single-flash b-wave implicit times, and PhNR and i-wave implici

46 Using improved FlAsH-based serine-threonine clusters beta-arrestin2 con

47 ntramolecular fluorescein arsenical hairpin (FlAsH) bioluminescence resonance energy transfer (BRET)

48 Physically salient objects, such as flashing, brightly colored hazard signs, or objects that

49 ld become a Brownian motor, which adopts the flash Brownian ratchet mechanism to pump the DNA against

50 ction toolkit provided in this protocol, the flashes can be reconstructed to yield high-resolution im

51 olation of the main antimicrobial compounds, flash chromatographic fractionation and semipreparative

52 alpha-boryl ester products were isolated by flash chromatography in all cases except for the salt pr

53 aration of oligomer mixtures using automated flash chromatography systems with the effectiveness of t

54 Flash chromatography was used to fractionate the total p

55 on enrichment with liquid-liquid extraction, flash column chromatography, and preparative-scale high

56 The primary end point was change in the hot flash composite score (HFCS) between SA and PP at week 8

57 Single-flash cone b-wave latency and 30-Hz flicker latency resp

58 udes of the rod, standard combined, standard flash cone, light-adapted 3.0 Hz flicker and red cone re

59 udes of the rod, standard combined, standard flash cone, light-adapted 3.0 Hz flicker and red cone re

60 bility to discriminate rapidly-presented two-flash control conditions following training.

61 to the site of covert attention induced by a flashed cue dot, and a concurrent reduction, but not eli

62 ents that were evoked by visual stimulation (flashing dark spots).

63 converts the radioactive decays into optical flashes detectable using a sensitive camera.

64 a-band oscillations at the time of the first flash determine illusory percept on a trial-by-trial bas

65 Flashes did not change melatonin concentrations or alert

66 In bi-modal trials, beeps and flashes differed in number by 0, 1 or 2.

67 er alpha frequencies predicted more accurate flash discrimination, providing novel evidence linking a

68 We argue that this early flash does not occur through previously suggested mechan

69 Flash drought averaged over China increased by 109% from

70 n the next few decades may exacerbate future flash drought conditions in China.

71 Flash droughts are most likely to occur over humid and s

72 d enhanced ET, leading to an acceleration of flash droughts during the warming hiatus.

73 igate the long-term trend and variability of flash droughts over China.

74 ture after 1997, but the increasing trend of flash droughts was tripled.

75 eveloping drought events that are termed as "flash droughts" accompanied by extreme heat, low soil mo

76 Moreover, utilizing the TC-labeling FlAsH-EDT2 biarsenical reagent to visualize VFs, evidenc

77 ino-acid (CCPGCC) tetracysteine (TC) tag and FlAsH-EDT2 reagent.

78 complete ophthalmic examination, full-field flash electroretinography (ERG) and multifocal ERG, ligh

79 ngs during redox cycling, thereby enacting a flashing energy ratchet mechanism with a minimalistic de

80 Full-field flash ERG findings were normal in both eyes.

81 mixtures of N2, O2, and CO2 with referenced, flash-evaporated water and found that isotope readings o

82 te loss of coordination in the prey (e.g., a flash expansion) caused the greatest delay in capture, s

83 FLASH (Flice-associated huge protein) and U7 small nucle

84 form of U7 snRNP contains the HLB component FLASH (FLICE-associated huge protein), the histone cleav

85 Informative flash flood-like disturbances that eliminate most gastro

86 farming and weather events, such as storms, flash flooding, and landslides, contribute estrogen to w

87 ds the IPCC's 1.5 degrees C target, risks of flash floods will exacerbate on top of the current incap

88 ssays that use the fluorescein arsenical dye FlAsH (fluorescein arsenical hairpin binder) to detect s

89 own why such a supposedly rare event (a late flash followed by mixing) is so common that the blue hoo

90 olved, non-repeating, broadband, millisecond flashes, found primarily at high Galactic latitudes, wit

91 ds with more accurate drug response than the flash frozen tissues, and thus bulk tissue should be pre

92 ds in which a whole mouse brain is embedded, flash frozen, and cryosectioned in preparation for mass

93 In this report, we examined both flash-frozen and paraffin-embedded formalin-fixed brain

94 rate that viable organoids can be grown from flash-frozen and thawed tissue and from bulk tissues slo

95 PCSK9 and LDL receptor mRNA levels in flash-frozen HCC and adjacent liver tissue were determin

96 We found that while flash-frozen iMNs are not suitable for ATAC-Seq, the ass

97 reast cancer and colon cancer cell lines and flash-frozen tumor lysates with a linear range of 0.05-2

98 HLB localization are all required for proper FLASH function in vivo.

99 The highest decoding accuracy for the two-flash fusion task (ISI = 40 ms) was evident in the phase

100 is by assessing the relationship between two-flash fusion thresholds (a measure of the temporal resol

101 at either repeated in the same location (two-flash fusion) or moved in space (apparent motion).

102 nary study investigated the effectiveness of flash gas chromatography electronic nose and multivariat

103 k emissions may be partially attributable to flash gas, observed frequencies in most basins exceed th

104 Mitochondrial flashes have a central role in ensuring that ATP levels

105 tate friction formulations supplemented with flash heating but not with widely used slip-weakening fr

106 Hot flashes (HFs) affect up to 75% of menopausal women and p

107 he future studies and utilization of the new flash hot pressing (ultra-rapid spark plasma sintering)

108 The idea of flash spark plasma sintering (or flash hot pressing - FHP) stems from the conducted theor

109 After a laser flash, I forms through photoinduced CS, accumulates to a

110 blue hook' stars, which had late helium-core flash ignition, followed by deep mixing) are the progeny

111 ted (2F; S3-enriched), and ammonia-bound two-flash illuminated (2F-NH3; S3-enriched) PS II.

112 erature structures of dark-adapted (S1), two-flash illuminated (2F; S3-enriched), and ammonia-bound t

113 on of the temporally-dependent sound-induced flash illusion (SIFI).

114 e original theoretical account of the triple-flash illusion proposed by Bowen in 1989.

115 ticipants performed the sound-induced double-flash illusion task and found positive correlation betwe

116 For example, in the sound-induced double-flash illusion, when two beeps are presented within appr

117 ash when only two are presented (the "triple-flash" illusion) most often when the interflash delay ma

118 We used the "triple-flash" illusion: Occasional perception of three flashes

119 rain exhibit shared categorical responses to flashed images but diverge in their responses under more

120 rding the type of object they see in rapidly flashed images.

121 either the number of beeps or the number of flashes in uni-modal and bi-modal conditions.

122 Furthermore, an intense white flash induced a small amplitude prolonged dark current c

123 We report analysis of flash-induced absorption changes in purified wild-type a

124 EPR spectra of the S2 state and flash-induced FTIR spectra of both D1-N87A and D1-N87D P

125 However, flash-induced O2-evolution studies revealed a decreased

126 I activity was demonstrated by comparing the flash-induced oxygen evolution pattern of wild-type and

127 Here we analyze laser flash-induced photocurrents and photochemical conversion

128 Our results indicate that the FLASH-interacting domain in Lsm11 is highly dynamic, whi

129 Within the complex, the N terminus of FLASH interacts with the N terminus of the U7 snRNP prot

130 ct of one or more polyribosomes, while inter-flash intervals appear random, suggesting they arise fro

131 ASH mutant, we show that distinct domains of FLASH involved in U7 snRNP binding, histone pre-mRNA cle

132 cement crosses perceptual threshold, a third flash is erroneously perceived.

133 s together with one flash, a second illusory flash is often perceived.

134 rter that exploits the rapid maturation and "flash" kinetics of Gaussia luciferase (Gluc) to visualiz

135 illisecond light pulses generated by a xenon flash lamp.

136 critical, and fit conditions of the lungs by flashing LEDs of different colors.

137 hone as light intensity detector and its LED flash light as an optical source.

138 ters, and sparse noise stimuli consisting of flashed light and dark squares.

139 gen/deuterium exchange in various regions of FLASH, Lsm11 and NPAT alone or in the presence of their

140 caused by intense cloud-to-ground lightning flashes, manifesting an impulsive coupling mechanism bet

141 sponse to each flash: When the delay between flashes matches the period of the oscillation, the super

142 8.5 (RCP8.5) baseline experiment a Greenland flash melting scenario corresponding to an additional se

143 Flash memories are currently the key player in the field

144 perties of the device compare favorably with flash memories.

145 While each flash memory can be easily fabricated using solution pro

146 Although flash memory dominates in the non-volatile memory market

147 memory device presents a typical nonvolatile flash memory effect with excellent reproducibility and g

148 didate to succeed multilevel-cell (MLC) NAND flash memory.

149 Rotation may also account for frequent late-flash-mixing events in massive globular clusters.

150 VD are typically quick (96%), with lightning/flash morphology (96%), white (87%), temporally located

151 Using transgenes to complement a FLASH mutant, we show that distinct domains of FLASH inv

152 ipulating HLB composition using mutations in FLASH, mutations in the HLB assembly factor Mxc, or depl

153 (n = 8) or sequences of 2-millisecond light flashes (n = 31) with different interstimulus intervals

154 Flash nanoprecipitation (FNP) has proven to be a powerfu

155 Here we also introduce a Flash NanoPrecipitation method that has been adopted for

156 sembly, microfluidics-based preparation, and flash nanoprecipitation.

157 Hot flashes, night sweats, and vaginal dryness.

158 A bright flash of illuminating light is required to acquire suffi

159 orary suspension of locomotion upon a sudden flash of light as short as milliseconds).

160 ese outflows power prompt, brief and intense flashes of gamma-rays known as gamma-ray bursts (GRBs),

161 ed activity in photoreceptors in response to flashes of light polarized orthogonally to their preferr

162 Ultrashort flashes of THz light with low photon energies of a few m

163 Fast radio bursts are astronomical radio flashes of unknown physical nature with durations of mil

164 orescence microscope by capturing individual flashes of visible light that are produced as individual

165 iliarizing subjects with a spatial sequence, flashing only the starting point of the sequence trigger

166 amic nonequilibrium actin structures such as flashes, oscillations, and traveling waves.

167 d more severe musculoskeletal (P = .02), hot flash (P = .02), and cognitive problems (P = .006) at on

168 The tamoxifen group had higher levels of hot flashes (P = .002), cognitive problems (P = .016), and b

169 The utilized uniquely controllable flash phenomenon is enabled by the combination of the el

170 the radical cations as indicated by a laser flash photolysis (LFP) study of the photochemical oxidat

171 Laser flash photolysis (LFP) was used to determine the lifetim

172 gated by fluorescence spectroscopy and laser flash photolysis (LFP).

173 nvolving fluorescence measurements and laser flash photolysis (LFP).

174 QMs were detected by laser flash photolysis and their reactivity with nucleophiles

175 ensemble mechanistic studies including laser flash photolysis and time-resolved fluorescence, we demo

176 ch as NMR, fluorescence quenching, and laser flash photolysis and various degrees of success has been

177 Our strategy is complemented with flash photolysis data, where the lifetimes of different

178 isplayed good absorption characteristics for flash photolysis experiments in a flow system, with tran

179 tions was unequivocally established by laser flash photolysis experiments showing the absorption band

180 ated by means of both steady state and laser flash photolysis experiments.

181 ated by means of both steady state and laser flash photolysis experiments.

182 ass-spectrometric, electrophysiological, and flash photolysis measurements after its cotranslational

183 Indeed, laser flash photolysis measurements showed an efficient format

184 tones were obtained using transmission laser flash photolysis methods by taking advantage of aqueous

185 Accordingly, we applied flash photolysis of caged Ca(2+) to activate BK channels

186 ereas KI-TnC-A8V(+/+) relaxed more slowly on flash photolysis of diazo-2.

187 The 266 nm laser flash photolysis of phtaloyl peroxide (2) in liquid acet

188 Flash photolysis of the Cys-RSE formed from Fe(II)/NO/cy

189 of BIST to a Ca(2+) chelator that upon laser flash photolysis rapidly releases Ca(2+) in <0.2 ms.

190 Laser flash photolysis showed that reaction of phenylchlorocar

191 investigated by solution NMR techniques and flash photolysis spectroscopy.

192 A laser flash photolysis study on the role of solvent effects on

193 idence has been obtained by nanosecond laser flash photolysis through detection of long-lived transie

194 Laser Flash Photolysis was employed to measure the deprotonati

195 l lineC(+)-(4-MeO-C6H4)] (generated by laser flash photolysis) with diverse nucleophiles (e.g., pyrro

196 rough bromine trapping experiments and laser flash photolysis, and a mechanism is proposed.

197 as studied by steady state photolysis, laser flash photolysis, and theoretical calculations.

198 The formation of dA* was followed by laser flash photolysis, which yields a transient with lambdama

199 lowest triplet excited states (T1), by laser flash photolysis.

200 tural data with absolute kinetics from laser flash photolysis.

201 dimethylacetamide (DMA) was studied by laser flash photolysis.

202 quinone methides (QMs) was observed by laser flash photolysis.

203 xyl radical (CumO(*)) were measured by laser flash photolysis.

204 xyl radical (CumO(*)) were measured by laser flash photolysis.

205 13 were detected and characterized by laser flash photolysis.

206 reaction intermediates, were investigated by flash photolysis.

207 Flash-photolysis experiments showed overall fast biphasi

208 ere associated with improvement in daily hot flashes (pooled mean difference of changes, -0.79 [-1.35

209 d with a decrease in the number of daily hot flashes (pooled mean difference of changes, -1.31 [95% C

210 Subsequently, a Flash Profile and a consumer sensory acceptance study we

211 Flash Profile's results showed that beef- and pork-based

212 te cloning with modified constructs from the FLASH protocol, and (3) test the TALEN pairs in an ampli

213 required to judge the practicality of light flash protocols.

214 d stent (n=2), and acute RV dysfunction with flash pulmonary edema.

215 termediate that was generated by high-vacuum flash pyrolysis (HVFP) of the corresponding p-tosylhydra

216 of dimethyl sulfide (DMS), was generated by flash pyrolysis of CH3SO2OOSO2CH3 and subsequently isola

217 data, transient absorption spectroscopy, and flash-quench experiments.

218 d by time-resolved optical spectroscopy with flash-quench generated [Ru(bpy)3](3+) and [Ru(dce)3](3+)

219 )Bu)2)](2+), in which Ru(III) generated by a flash-quench sequence oxidizes the appended phenol and t

220 intercalating ruthenium photooxidant and the flash-quench technique.

221 timulation, discrete Arc-Gluc bioluminescent flashes representing sites of de novo translation are de

222 ivity as unphosphorylated rhodopsin and that flash responses measured by trans-retinal electroretinog

223 3D fast low angle shot (FLASH) revealed strong signal in most internal tissues,

224 All subjects received a T1 MP-FLASH scan for tissue segmentation followed by 31P MRS,

225 The primary outcome was hot flash score at the end of treatment (week 12), calculate

226 as associated with a significantly lower hot flash score than enhanced self-care at the end of treatm

227 d that the human circadian system integrates flash sequences in a nonlinear fashion with a linear ris

228 a subset of trials, a second target (T2) was flashed shortly following T1.

229 GtACR1) and its mutants in response to laser flashes showed that GtACR1 gating comprises two separate

230 ive of flash sintering, in which contactless flash sintering (CFS) is achieved using plasma electrode

231 ically analyze the thermal runaway nature of flash sintering and to experimentally address the challe

232 potential venue for future investigations of flash sintering of complex shapes.

233 The experimental results demonstrate that flash sintering phenomena can be realized using conventi

234 ermal conditions by the stabilization of the flash sintering process through the application of the e

235 The presented new method allows: extending flash sintering to nearly all materials, controlling sam

236 This paper presents a novel derivative of flash sintering, in which contactless flash sintering (C

237 Preheating, a usual precondition for flash sintering, is provided by the arc electrodes which

238 up the possibility of continuous throughput flash sintering.

239 runaway phenomena for material processing by flash sintering.

240 Here, a Flash Spark Plasma Sintering (FSPS) process has been app

241 The idea of flash spark plasma sintering (or flash hot pressing - FH

242 A new ultra-rapid process of flash spark plasma sintering is developed.

243 We show by time-resolved flash spectroscopy that the photochemical reaction cycle

244 ectroretinographic (ERG) responses to single-flash stimuli also show no difference between KI/KI and

245 Observers fixated centrally, while flash stimuli at perceptual threshold appeared at differ

246 re measured in response to full-field, brief-flash stimuli under conditions that target the rod, cone

247 Further, the peak response to a flashed stimulus was earlier in all three areas.

248 c floating-gate memories are next-generation flash storage mediums for printed organic complementary

249 nd electroretinographic (ERG) protocols with flash strengths of 0.009, 0.17, 3.0, and 12.0 candelas (

250 Using continuous flash suppression (CFS) in the MRI scanner, we manipulat

251 To address this question, we used continuous flash suppression (CFS) to present the MIB stimulus outs

252 cular rivalry, flash suppression, continuous flash suppression), the neural processing underlying int

253 perception conditions by means of continuous flash suppression, and we tested in 24 healthy human par

254 related phenomena (e.g., binocular rivalry, flash suppression, continuous flash suppression), the ne

255 with direct or averted gaze under continuous flash suppression, thereby manipulating their awareness

256 for example, treatment of depression or hot flashes, than did those in the control group (adjusted d

257 able linear polarization of a prompt optical flash that accompanied the extremely energetic and long-

258 observations of a prominent but red optical flash that appears about half a day after the explosion

259 tacts the C-terminal SANT/Myb-like domain of FLASH, the same region that binds NPAT.

260 FLASH through its distant C terminus independently inter

261 and incorporating a light diffuser over the flash to improve the image quality, a mini dark box and

262 owires as the information storage element in flash-type memory devices.

263 A new flash (ultra-rapid) spark plasma sintering method applic

264 ividual events and distributed a preliminary flash update of key information (location, type of servi

265 return stroke as in negative cloud-to-ground flashes, upon connection to another lightning channel -

266 Periodically flashing UV light and white light drives the robot flage

267 cuum pyrolysis of 44 using the falling solid flash vacuum pyrolysis (FS-FVP) method afforded cyclopen

268 The carbenes were generated by falling solid flash vacuum pyrolysis (FS-FVP).

269 imately 2080 cm(-1) by a combination of mild flash vacuum pyrolysis (FVP) at 200-600 degrees C with l

270 Flash vacuum pyrolysis (FVP) of 1-(5-(13)C-5-tetrazolyl)

271 Flash vacuum pyrolysis (FVP) of azides is an extremely v

272 2,3-triazolo[1,5-a]quinoline by conventional flash vacuum pyrolysis (FVP) were observed by IR spectro

273 d to have a barrier accessible under typical flash vacuum pyrolysis conditions.

274 Flash vacuum pyrolysis of 1,3-bis-iodomethyl-benzene (m-

275 Flash vacuum pyrolysis of 44 using the falling solid fla

276 Through flash vacuum pyrolysis of CF3 S(O)NCO at ca. 1200 K, sul

277 Upon flash vacuum pyrolysis of sulfinyl azide CF3S(O)N3 at 35

278 the vapors rapidly through a very hot oven (flash vacuum pyrolysis) promotes high-temperature therma

279 ations proceeded quantitatively either under flash vacuum pyrolysis, conventional heating, or microwa

280 Via flash vacuum pyrolysis, even metaparacyclophanes as smal

281 rtho-benzyne, 1,2-azaborine, is generated by flash vacuum pyrolysis, trapped under cryogenic conditio

282 < 95 kcal/mol and thus to be accessible via flash vacuum pyrolysis.

283 ally new route harnessing a ring-contracting flash vacuum pyrolytic extrusion of sulfur dioxide from

284 itrene with O2, the nitrene was generated by flash vacuum thermolysis (FVT) of phenylazide and subseq

285 ate ene cascade (RDA/ICE) reaction under the flash-vacuum pyrolysis of maleic anhydride adducts is de

286 xperienced menopausal symptoms including hot flashes, vaginal dryness, and sexual dysfunction.

287 carriers, the average ERG amplitude to 30-Hz flashes was approximately 50% of normal, and the average

288 evident at all ages: the reported number of flashes was influenced by the number of simultaneously p

289 low friction coefficient, is responsible for flash weakening and promotes the propagation of the seis

290 he micro-physical mechanisms associated with flash weakening in carbonates, experiments were conducte

291 Flash weakening is also observed in experiments performe

292 eduction in fault frictional strength (i.e., flash weakening).

293 At peak ISI, flashes were at least 2-fold more effective in phase del

294 hat human participants report seeing a third flash when only two are presented (the "triple-flash" il

295 sh" illusion: Occasional perception of three flashes when only two spatially coincident veridical one

296 onse functions generated in response to each flash: When the delay between flashes matches the period

297 ons create something out of nothing: A third flash where there are only two.SIGNIFICANCE STATEMENT We

298 stimulate ipRGCs, we used a 1-second 470-nm flash with a luminance of 250 cd/m(2).

299 al photoreceptors, we used a 1-second 640-nm flash with a luminance of 250 cd/m(2).

300 ilateral, and simultaneous); (2) morphology (flash, zig-zag, strobe, scintillating scotoma, twinkling