ライフサイエンスコーパス: spectral

1 Using spectral accuracy and mass accuracy it was possible to r

2 raps have been extensively documented, their spectral accuracy, i.e., accuracy in measuring the abund

3 Spectral acquisition rates of more than two spectra per

4 ned multivariate classifiers to discriminate spectral activity during learning that predicted remembe

5 linear regression relationship between Raman spectral alterations and alkane concentrations showed it

6 the modulated pulse, we can concentrate the spectral amplitude of the pulse at various frequencies.

7 the highest total phenolics as determined by spectral analysis and supported by the classification pr

8 odels confirmed reliability of detection and spectral analysis of histamine with SERS.

9 though it has previously been shown that the spectral analysis of ultrasound backscatter data is sens

10 For K1, spectral analysis showed a negative bias of 16%.

11 nges caused by apoptosis, the sensitivity of spectral analysis to oncosis or ischemic cell death had

12 lated phosphatidylcholines were confirmed by spectral analysis.

13 sympathetic modulation was assessed by power spectral analysis.

14 plot analysis, a basis function method, and spectral analysis.

15 We designed a novel, non-spectral-analysis method of separating ultradian from ci

16 res are found in the core of A1, mixtures of spectral and articulatory in STG, mixtures of articulato

17 F26 by solid-phase synthesis (6-7 d) and its spectral and biological characterization as a live-cell

18 etidine groups allows rational tuning of the spectral and chemical properties of rhodamine dyes with

19 without taking into account solvent-induced spectral and photophysical changes of the labels, leads

20 In accord with the low computed barriers, spectral and preparative data show that the reaction is

21 In this way, joint spectral and spatial multiplexing is implemented that en

22 r, unresolved issues related to the spatial, spectral, and temporal dynamics of vegetation fluorescen

23 different feature spaces that represent the spectral, articulatory, and semantic properties of speec

24 ed spectral peaks, thus allowing unambiguous spectral assignments.

25 The spectral attributes of LCO-bound plaques varied markedly

26 haracterized by pronounced difference in SPR spectral band position (shifting up to 50nm).

27 ingle cell-SERS analysis including origin of spectral bands and experimental parameters for spectral

28 shot that contains only 10(5) photons in a spectral bandwidth of 50% full width at half maximum (F

29 rentiation was introduced in identifying the spectral biomarkers, and principal component analysis fo

30 ion of DBP performance due to neglecting the spectral broadening effect in the compensation is more s

31 ermines the performance limits, and leads to spectral broadening of the signals propagating in the fi

32 ense pulses of light can experience dramatic spectral broadening when propagating through lengths of

33 ed (73-83%) by the intrinsic single particle spectral broadening, as observed using spectral hole bur

34 al frequency (eliciting changes in pitch) or spectral centroid (eliciting changes in brightness, an i

35 sis of squaramides usually displays biphasic spectral changes (A --> B --> C kinetic model) with form

36 Pronounced spectral changes are observed at the Cu K-edge concomita

37 The addition of NS5A-D2 leads to spectral changes indicative of binding to both allosteri

38 ay absorption data further reveal systematic spectral changes with successive oxidations from the cub

39 erize the influence of resonator size on the spectral characteristics of the emitted laser light and

40 ows has been shown to enhance peak capacity, spectral clarity and fragmentation specificity.

41 We have used the spectral clustering algorithm to cluster the increasingl

42 measures, including temporal modulations and spectral complexity, could not account for the increased

43 series of experiments to explore the role of spectral composition and intensity of light in the modul

44 It was designed to overcome the spectral congestion and line broadening that occur due t

45 s, broad absorption-like lines appear on the spectral continuum, indicating atomic species produced b

46 Crucially, task relevance modulated these spectral correlates, suggesting that current goals influ

47 mass spectrometry approach using label-free spectral count-based relative protein quantification.

48 ed range of the solar spectrum, so enhancing spectral coverage could improve the efficiency of light

49 otosynthetic light harvesting, expanding the spectral cross-section for light absorption and creating

50 These results pave the way for "spectral" cytology of urine using Raman microspectroscop

51 its (>150 residues), the analysis of crowded spectral data presents a challenge, even if three-dimens

52 (PLSDA), were performed on the MS and Raman spectral data, along with a variety of spectral preproce

53 As a result of the differences in spectral data, the incorrect structural assignment of th

54 The method is called 3D-SDAR (3-dimensional spectral data-activity relationship) and can be interrog

55 utomated analysis and interpretation of mass spectral data.

56 ere identified using standards, and the mass spectral database mzCloud was used to assess the feasibi

57 cilitated by searching the Spektraris online spectral database, enabled us to formulate a biosyntheti

58 using event-related potential, event-related spectral decomposition (ERSP) and resting state function

59 Spectral decomposition of spontaneous cortical activity

60 /f behaviour in corresponding emission power spectral densities.

61 y, we used dynamic causal modeling for cross-spectral density and estimated slow fluctuations in neur

62 proach that employs the one-dimensional (1D) spectral density function (SDF) as the unique representa

63 bath spins and yield a specific environment spectral density S(omega).

64 d at raw data rates of 16.4 and 18 Gbps with spectral-density usage efficiency as high as 4 bit/s/Hz

65 The ability to measure spectral depth profiles at high speed (5 s acquisition t

66 ment of commercial microscopes equipped with spectral detectors, spectral imaging has become a conven

67 Data was evaluated in terms of (i) spectral differences, (ii) differences in LPD prediction

68 tions of the ionic region that influence the spectral diffusion and reorientation of small, anionic,

69 re used to investigate CO2 reorientation and spectral diffusion dynamics in SILMs.

70 nvestigate the dynamics of reorientation and spectral diffusion of the linear triatomic anion, SeCN(-

71 f CO2 and structural fluctuations of the IL (spectral diffusion) in the pores are slower than in the

72 Electroencephalography revealed spectral dissociations between somatic and visual effect

73 nitride (hBN), but controlling inhomogeneous spectral distribution and reducing multi-photon emission

74 The spectral distribution of light emitted from a scanning t

75 Notably, the NIR spectral domain absorptivities of M-(PM')n-M chromophore

76 We study the system in the spectral domain and find that the frequency response ass

77 Here, we employed fundus photography, spectral domain optical coherence tomography (SD-OCT), f

78 With the introduction of spectral domain optical coherence tomography (SD-OCT), s

79 a patients and, also after enucleation using spectral domain optical coherence tomography.

80 CASE PRESENTATION: Intraoperative spectral domain optical coherent tomography (iSD-OCT) as

81 l acuity (BCVA), fundus autofluorescence and spectral domain-optical coherence tomography, and 4.5 x

82 We sought histologic correlates for spectral-domain (SD) optical coherence tomography (OCT)

83 mbrane (BM) complex thickness as measured by spectral-domain (SD) optical coherence tomography (OCT).

84 Spectral-domain OCT is useful in identifying various ima

85 Spectral-domain OCT was performed preoperatively in all

86 us photographs, fundus autofluorescence, and spectral-domain OCT were obtained, and these findings we

87 ography (OCTA) scan pattern by 70-kHz 840-nm spectral-domain OCT.

88 Images were obtained from spectral-domain optical coherence tomography (Cirrus OCT

89 reomacular interface status was evaluated by spectral-domain optical coherence tomography (OCT) and w

90 All patients underwent spectral-domain optical coherence tomography (OCT).

91 nset and in the course of recovery by serial spectral-domain optical coherence tomography (SD OCT) an

92 phy (CP) is preceded by specific features on spectral-domain optical coherence tomography (SD OCT).

93 sa (RP) over an average of three years using spectral-domain optical coherence tomography (SD-OCT) an

94 ephalon accessible to in vivo microcopy with spectral-domain optical coherence tomography (SD-OCT) ca

95 ra-widefield fluorescein angiography (UWFA), spectral-domain optical coherence tomography (SD-OCT), a

96 color photographs, fluorescein angiography, spectral-domain optical coherence tomography (SD-OCT), b

97 e (ACZ, n = 44) or placebo (PLB, n = 43) had spectral-domain optical coherence tomography (SDOCT) ima

98 with intermediate AMD from 68 patients with spectral-domain optical coherence tomography (SDOCT) ima

99 tify retinal structure and progression using spectral-domain optical coherence tomography (SDOCT) in

100 We estimated the measurement floors for spectral-domain optical coherence tomography (SDOCT) mea

101 Spectral-domain optical coherence tomography (SDOCT) was

102 blue autofluorescence, blue reflectance, and spectral-domain optical coherence tomography (SDOCT).

103 Spectral-domain optical coherence tomography through reg

104 both eyes underwent choroidal imaging using spectral-domain optical coherence tomography with enhanc

105 rescein and indocyanine green angiographies, spectral-domain optical coherence tomography, and optica

106 acuity measurement, fundus examination, and spectral-domain optical coherence tomography.

107 abnormalities of the CB were identified with spectral-domain optical coherence tomography.

108 ntitative fundus autofluorescence [qAF]) and spectral-domain optical coherence tomography.

109 ilarity maps in the molecular descriptor and spectral domains.

110 pose To test the hypothesis that appendiceal spectral Doppler waveforms can distinguish patients with

111 d 2D and then 3D images, including color and spectral Doppler.

112 he full Chl emission spectra - capturing the spectral dynamics associated with changes in the yields

113 er-than-Nyquist (FTN) signal achieves higher spectral efficiency and capacity compared to Nyquist sig

114 lti-modal co-registration called Multi-scale Spectral Embedding Registration (MSERg).

115 ptimal narrowband controls ideally suited to spectral estimation of a qubit's noisy environment.

116 provides visualization of multiple lines of spectral evidence for each lipid identification, allowin

117 Later stages of spectral evolution are consistent with hot carrier cooli

118 We show that such spectral features are closely related to the branching t

119 s and moving laterally on the temporal lobe: spectral features are found in the core of A1, mixtures

120 ntal spectra of Ti K-edge, we identified key spectral features as fingerprints for quantitative asses

121 arge signal-to-noise, and distance-dependent spectral features but presenting challenges for localizi

122 for the multivariate analysis of the entire spectral features employed.

123 d material have been recorded and their main spectral features have been linked to extractabilities o

124 The temporal analysis of spectral features in the rf-GD showed that the collected

125 bility to adaptively modify the temporal and spectral features of vocal elements.

126 Similar metrical and spectral features revealed analogous heme sites in MB an

127 Spatial analysis of the spectral features showed that the excitation of the anal

128 Also, the transformation from spectral features to semantic elements occurs early in t

129 These spectral features were linked to three different types o

130 on into near-field-coupled SPPs displays new spectral features whose energies and dipole orientations

131 ts show a distinct pattern of mobilities and spectral features, in detergent and liposomes, for resid

132 encies of 61.5%, significantly outperforming spectral filtering for bandwidth compression.

133 This makes it possible to apply 2D NMR spectral fingerprinting approaches directly to drug prod

134 Multivariate modeling of mass spectral fingerprints obtained in this way readily discr

135 dent probe measurements (r = 0.98) than with spectral fitting alone (r = 0.91) or integrated fluoresc

136 n tissue-simulating phantoms showed that (I) spectral fitting enhanced PpIX sensitivity compared with

137 sis is on future research directions linking spectral fluorescence to photosynthesis, PhiPSII, and NP

138 The spectral flux of space electrons, protons and ions for e

139 In primary emissions, OA mass spectral fragments associated with oxygenated species (p

140 The 4D spectral function rho(EB; k) in the entire bulk Brilloui

141 A direct comparison of bulk and surface spectral functions (taken at low photon energies) reveal

142 ticle spectral broadening, as observed using spectral hole burning measurements.

143 he result is a form of steady-state phononic spectral hole burning that produces a wideband transpare

144 The method was evaluated on multi-spectral images of multiplex-labeled pancreatic ductal a

145 ich diet, and (ii) in situ hybridization and spectral imaging analysis methods that allow simultaneou

146 icroscopes equipped with spectral detectors, spectral imaging has become a convenient and powerful te

147 stress in desiccated mosses, indicating that spectral imaging is an effective tool to monitor photosy

148 Here we present a MATLAB spectral imaging toolbox with the aim of overcoming thes

149 l-suited to imaging modalities such as hyper-spectral imaging, depth mapping, 3D profiling.

150 Via spectral imaging, we assessed structural impurities and

151 al applications in information technology or spectral imaging.

152 lved circuitry to extract useful spatial and spectral information from signals originating in a photo

153 is implemented that encodes both spatial and spectral information in the time dependent fluorescence

154 technique's nondestructive nature, rich mass spectral information, ability to provide chemical images

155 accelerate these scans while re- taining key spectral information.

156 low resolving similar molecular temporal and spectral information.

157 We present a method by which the spectral intensity of an ultrafast laser pulse can be ac

158 rtainties associated with the correction for spectral interferences limit the number of stable tracer

159 widely used annotation approach is to search spectral libraries in reference databases for matching m

160 (IPF), a fully automated algorithm that uses spectral libraries to query, validate and quantify pepti

161 w called MetaboDIA to build customized MS/MS spectral libraries using a user's own data dependent acq

162 owing EI ionization, despite the use of mass spectral libraries, a majority of the compounds remains

163 the quality and accuracy of matching to mass spectral libraries, but to date, there has been little a

164 ng MS2 spectra (acquired in ddMS2 mode) with spectral libraries.

165 able annotations or accurate matches to mass spectral libraries.

166 challenging; most DIA data analyses require spectral libraries.

167 groups and tentatively identified using mass spectral libraries.

168 olomics data set, where we built a DDA-based spectral library containing consensus spectra for 1829 c

169 list of heterocyclic aromatics and the mass spectral library generated in this study can be used for

170 A mass spectral library search algorithm that identifies compou

171 Our studies show that the spectral line splits into distinctive spinon and holon e

172 ibutions (sigma = 0.5-2%) are obtained whose spectral line widths are dominated (73-83%) by the intri

173 how this interaction influences second-order spectral lineshapes.

174 defines the clock stability, from which the spectral linewidth and frequency precision are determine

175 The spectral location of the affected amide peaks, partial N

176 s, and will open new opportunities for multi-spectral LWIR and VLWIR imaging and detection.

177 Three readers independently rated BPE on CE spectral mammographic and MR images with the ordinal sca

178 c performances of contrast material-enhanced spectral mammography and breast magnetic resonance (MR)

179 ncreased breast cancer risk who underwent CE spectral mammography and MR imaging for screening or sta

180 Between CE spectral mammography and MR imaging, the intrareader agr

181 lized estimating equations separately for CE spectral mammography and MR imaging.

182 In addition, contrast-enhanced spectral mammography depicted 11 of the 11 secondary can

183 al biomarkers; several characteristic mid-IR spectral markers were identified in urine samples.

184 ue lipids identified by accurate mass, MS/MS spectral match, and retention times.

185 can identify 24,503 localized phosphopeptide spectral matches enriched from mouse brain lysates, whic

186 nd the identity unequivocally established by spectral means.

187 Our experiments show that using Vicus, spectral methods result in more accurate and robust perf

188 ion of Emax model responses into an existing spectral model of depth-integrated, daily production wil

189 Using structure-based spectral modeling, we assign the conformational changes

190 separately from the cones using pulsed (3-s) spectral modulations around a photopic background.

191 g to optical phonons is observed as periodic spectral modulations in the pump-probe data of both film

192 sleep cycle states, and sleep-state specific spectral mosaics may provide insight into mechanisms und

193 ical transparency of the new IREs allows the spectral observation of displaced water libration bands

194 that the YFP-RC intermolecular distance and spectral overlap between the emission of YFP and the vis

195 ition method that overcomes the challenge of spectral overlap in the fluorescent protein palette.

196 g least-squares algorithm (NMF-ALS) to solve spectral overlaps.

197 correct full-length sequences to 83% of the spectral pairs of doubly charged ions with high-confiden

198 The spatial scale and spectral pattern of these photoreceptor interactions wer

199 Across subjects, we found conserved spectral patterns among the canonical frequency bands (d

200 g L(-1) per element, including elements with spectral peaks near the peaks of the matrix elements or

201 rdance with theory, the photons arising from spectral peaks that are suitably separated will be subje

202 ittings nicely reproduce all of the observed spectral peaks, thus allowing unambiguous spectral assig

203 ments, demonstrating improvement in both the spectral performance and UV capabilities of the instrume

204 , hybrid terahertz (THz) metamaterials whose spectral performance can be dynamically tuned over a lar

205 A new prototype spectral photon-counting computed tomography (SPCCT) bas

206 Conclusion Dual-contrast spectral photon-counting CT colonography with iodine-fil

207 Spectral, photophysical, photodynamic, and biological pr

208 NREM alpha and sigma spectral power correlations with intelligence did not un

209 lute NREM sleep EEG slow-wave activity (SWA, spectral power density between 0.5-4 Hz) was higher in t

210 r time spent in slow-wave sleep, and for EEG spectral power in the delta, theta, and sigma ranges.

211 squares regression (MPLS) using a number of spectral pre-treatments.

212 Raman spectral data, along with a variety of spectral preprocessing techniques for best discriminativ

213 Our results showed that the emission spectral profile levels of tryptophan and NADH were high

214 to artificial chimeras preserving the exact spectral profile of voices.

215 opy was used for the first time to determine spectral profiles of tryptophan, reduced nicotinamide ad

216 Distinct spectral profiles were observed for lesions with IDH-mut

217 The conformers differ in the spectral properties and in the reactivity in various irr

218 s varied markedly in the brain, but the mean spectral properties of the amyloid cores were generally

219 and possible negative visual effects of the spectral properties of the eye-colouring screening pigme

220 To this end, we compute the spectral properties of the microcomposites using Monte C

221 e anesthetic propofol elicits many different spectral properties on the EEG, including alpha oscillat

222 and designing channelrhodopsins with altered spectral properties, by solving the high-resolution chan

223 orange (AO), a nucleic acid dye with unique spectral properties, enables real-time measurement of RN

224 Real-time correction provided high spectral quality in all four groups (signal-to-noise rat

225 Spectral quality was assessed by means of region-of-inte

226 tosynthesis based on an atmospheric model of spectral radiation, satellite-derived spectral water tra

227 mponent analysis techniques were employed in spectral range (2746-2656cm(-1)) for classification and

228 In this work, 500-2000cm(-1) spectral range (fingerprint region) was determined to pe

229 ntrol aspects, PLS regression model based on spectral range 1139.9-1643.7cm(-1) showed linear trend w

230 cement in the THz pulse energy (in </=20 THz spectral range) is measured as compared to that with a t

231 In this spectral range, its absorptance alpha(lambda) is spectra

232 s, and silicon photomultipliers over a broad spectral range.The performance of silicon single-photon

233 such as material choice, film thickness, and spectral ranges where combs can be generated, as well as

234 The image registration, Stokes spectral reconstruction and calibration procedures are i

235 y require >100 t1 increments for an accurate spectral reconstruction, rendering these experiments ine

236 Here, we investigate the spectral reflectance from this subcellular nanostructure

237 HSI was applied in the spectral region 980-2500nm in reflectance mode using the

238 a polarizing beamsplitter for the terahertz spectral region, based on an artificial dielectric mediu

239 hat 4a-c strongly absorb and emit in the NIR spectral region, in the range 642-701 nm.

240 sparent to electromagnetic radiation in this spectral region, making it interesting for long-distance

241 ronic transitions in the near-infrared (NIR) spectral region.

242 1675 cm(-1)) within the amide I' band of the spectral region.

243 llow a pulse to radiate power into a distant spectral region.

244 uorescent probes for in vivo imaging in this spectral region.

245 bsorption cross-section in the UV-A and UV-B spectral regions and the availability of one or more mec

246 showed that flours strongly fluoresce in two spectral regions, where amino acids, tocopherols, pyrido

247 ions, and sensitivity to harmonic number and spectral regularity.

248 n STS are more correlated with semantic than spectral representations.

249 ectral bands and experimental parameters for spectral reproducibility are summarized along with the r

250 by the highly variable host star and the low spectral resolution of the measurements.

251 visible spectrum, successfully modulate the spectral response characteristics of MoS2 phototransisto

252 Understanding the infrared (IR) spectral response of materials as a function of their mo

253 Our finding enables an understanding of the spectral response of structured samples and points to ap

254 on method enables not only for tuning of the spectral response of the investigated biosensors, but al

255 The spectral response of the methylammonium lead triiodide s

256 eaker effects (10.8-16.0%) at pH 4.6, and no spectral response was observed at pH 3.6.

257 or as working electrode, both electrical and spectral responses on the surface of the sensor could be

258 As such, an elaborate spectral scan is often required to spectrally un-mix the

259 ing (MSI) creates a series of en-face fundus spectral sections by leveraging an extensive range of di

260 This combination of spectral selectivity, low power requirements, low heat p

261 time that such nearly complete inversion of spectral sensitivity of a photodetector has been achieve

262 The spectral sensitivity of these effects and their substant

263 The spectral sensitivity of these light adapted responses in

264 We found points of spectral sensitivity responding to experimentally-induce

265 ncorporating multiple click characteristics (spectral shape and inter-click interval distributions) t

266 We find that the TT excited-state absorption spectral shape correlates with the binding energy betwee

267 ies contribute to the temporal evolution and spectral shape of the continuum band, an unusually broad

268 ients; in human prostate 5 main contributing spectral shapes were distinguished.

269 binding energy of 7 meV is measured from the spectral shift of the emission lines under selective las

270 c dipole resonance of the metasurfaces and a spectral shift of the resonance by 30 nm, both achieved

271 gn ratiometric sensors that display dramatic spectral shifts by leveraging the chemoselective reactiv

272 eins in ion trap mass spectrometers, but the spectral signal-to-noise ratio (S/N) is typically lower

273 esser degree of symmetry in order to isolate spectral signals of interest.

274 uch richer feature set for a compound than a spectral signature based on peak positions and intensiti

275 detection based on the strength of the PpIX spectral signature in the collected emission spectrum (0

276 S's snapshot ability to resolve polarization spectral signatures is demonstrated using measurements o

277 ented insight into the interpretation of the spectral signatures of the measured 2D signals.

278 This tool illuminates spectral signatures unique to various modes of cell deat

279 nsures that neighbouring pixels have similar spectral signatures.

280 It does not need any scanning in the spectral, spatial or polarization dimension and offers s

281 across the entire visible spectrum and wide spectral stop-band widths (full-width at half-maximum >8

282 ovides a coherent framework for the study of spectral, temporal and functional analyses of the basal

283 ovides a coherent framework for the study of spectral, temporal and functional analyses of the BG and

284 We therefore developed a full-spectral three-color BRET assay for analyzing the specif

285 From single-molecule spectral time traces, we further examine isomerization b

286 Spectral titrations with cholesterol, in the presence of

287 e, we demonstrate that strain control allows spectral tunability of hBN single photon emitters over 6

288 ematical modeling proposes that the observed spectral tuning of simple ocellar photoreceptors in the

289 ites via mutagenesis have limited effects on spectral tuning, yet decrease the stability of dark-stat

290 rties such as rotation, surface gravity, and spectral type.

291 spectra using the NISTmAb and illustrate how spectral variability identified by PCA may be correlated

292 Differences in the spectral variance within the SERS and TERS data for each

293 mple of a species which displays significant spectral variation with changing nitric acid concentrati

294 del of spectral radiation, satellite-derived spectral water transparency and temperature.

295 th respect to the shapes of their excitation spectral waveforms and peak wavelengths.

296 RVB excitations account for the bulk of the spectral weight above 0.5 meV.

297 to giant spasing with emission intensity and spectral width >100 times brighter and 30-fold narrower,

298 plays a single peak in the cell-silent Raman spectral window; when combined with available fluorescen

299 d (640-660 nm) or near-infrared (740-760 nm) spectral windows.

300 Both spectral (x-outlier) and analyte (y-outlier) outliers ca