ライフサイエンスコーパス: chemical analysis

1 amples resulting in an unbiased quantitative chemical analysis.

2 tems have emerged as a powerful approach for chemical analysis.

3 olumes from individual adult fruit-flies for chemical analysis.

4 applications of redox-MHD microfluidics for chemical analysis.

5 transfer efficiencies high enough for proper chemical analysis.

6 llector coupled to a microfluidic device for chemical analysis.

7 n is a crucial, yet often overlooked step in chemical analysis.

8 sometimes insurmountable problems for their chemical analysis.

9 given careful shimming schemes, even perform chemical analysis.

10 mmunologic function of PAP2 by mutational or chemical analysis.

11 e dimensions are rapidly being developed for chemical analysis.

12 cellent complement to traditional methods of chemical analysis.

13 for fabrication of microfluidic devices for chemical analysis.

14 idic device for pumping, sampling, and trace chemical analysis.

15 ical testing, spectroscopic observation, and chemical analysis.

16 ple growth and preparation to the results of chemical analysis.

17 werful method for automating high-throughput chemical analysis.

18 ased vascular calcification by histology and chemical analysis.

19 ion with the quantitative capability of bulk chemical analysis.

20 proteins in cells, enabling reliable in vivo chemical analysis.

21 intervals and was measured and subjected to chemical analysis.

22 t skin emanations from humans for subsequent chemical analysis.

23 Milk composition was determined by chemical analysis.

24 of AxNiR has been determined by conventional chemical analysis.

25 t specifications must be met and verified by chemical analysis.

26 ed by a combination of mass spectrometry and chemical analysis.

27 d as a light source for optical detection in chemical analysis.

28 reliability of RRS spectroscopic methods in chemical analysis.

29 elevant for environmental fate, toxicity and chemical analysis.

30 spectroscopy accompanied by detailed quantum-chemical analysis.

31 for enantiomer specific synthesis as well as chemical analysis.

32 evelopment of new techniques in all areas of chemical analysis.

33 o-dimensional NMR spectroscopy together with chemical analysis.

34 nt strain 130b that is suitable for detailed chemical analysis.

35 e (NMR) spectroscopy is a versatile tool for chemical analysis.

36 h the accuracy traditionally associated with chemical analysis.

37 pic standards for accurate quantitative food chemical analysis.

38 nd the sensory data were correlated with the chemical analysis.

39 ion mobility is enhancing many areas of (bio)chemical analysis.

40 sub-Saharan Africa, 796 (35%) of 2297 failed chemical analysis, 28 (36%) of 77 failed packaging analy

41 ountries in southeast Asia, 497 (35%) failed chemical analysis, 423 (46%) of 919 failed packaging ana

42 ligrams of iron per gram of wet tissue) with chemical analysis after MR imaging.

43 ntless organic micropollutants, and targeted chemical analysis alone may only detect a small fraction

44 al analysis of the same food, we performed a chemical analysis and a calculation for a representative

45 Targeted chemical analysis and AChE bioassay were performed on th

46 ion exchange treatment was employed prior to chemical analysis and algal bioassays.

47 lised with thiols concentrations obtained by chemical analysis and blackcurrant aroma intensities obt

48 and therefore presents inherent problems for chemical analysis and characterization.

49 Magnetic Resonance ((1)H NMR), conventional chemical analysis and chemometric elaboration were used

50 al resolution of AFM in combination with the chemical analysis and compositional imaging capabilities

51 s a rapidly emerging technique that provides chemical analysis and compositional mapping with spatial

52 osition of the sample was determined by bulk chemical analysis and confirmed by electron energy loss

53 d the best sensory results were submitted to chemical analysis and cooking quality of pasta.

54 dditional assessment was provided by surface chemical analysis and electron diffraction.

55 raphical origin were correctly classified by chemical analysis and electronic tongue (100%), but it w

56 reciated for over a century, and advances in chemical analysis and genome sequencing continue to grea

57 itivity, accuracy, and simplicity to electro-chemical analysis and is expected to become a useful too

58 ractical platform for accurate, quantitative chemical analysis and medical diagnostics.

59 processes are widely used in small molecule chemical analysis and metabolomics for derivatization, v

60 imately 1.0 g-atom/subunit) as determined by chemical analysis and plasma emission spectroscopy.

61 Rickettsia prowazekii were characterized by chemical analysis and sodium dodecyl sulfate-polyacrylam

62 Chemical analysis and spectroscopic studies show that ni

63 nt labeling is widely used in biological and chemical analysis, and the drive for increased throughpu

64 dioxide (TiO2) NPs, sample preparations and chemical analysis are critical steps to meaningfully ass

65 The results of chemical analysis are discussed in terms of their effect

66 ctivity, immunology, imaging techniques, and chemical analysis are given.

67 most significant changes among DBDs used for chemical analysis are in how the discharge electrodes ar

68 Therefore tissue extracts prepared for chemical analysis are not amenable to assess the combine

69 The device is capable of real-time chemical analysis at scan rates up to 48 Hz.

70 ty and genotoxicity bioassays can supplement chemical analysis-based risk assessment for contaminated

71 ly been used as an analytic tool for routine chemical analysis, but more recently, researchers have b

72 on of substrate in solution, and to simplify chemical analysis by avoiding the difficult extraction o

73 sorption ionization was designed for in vivo chemical analysis by mass spectrometry in surgical and e

74 A detailed chemical analysis by ultrahigh-performance liquid chroma

75 sion, if chemometric overfitting is avoided, chemical analysis can predict sensory qualities of food

76 echanisms by which optofluidics enhances bio/chemical analysis capabilities, including sensing and th

77 d by various chemometric methods to increase chemical analysis capabilities.

78 Organelle purification and chemical analysis confirmed the localization of forskoli

79 TOF-SIMS chemical analysis confirmed these heterogeneous printed

80 produced with the present crystals, which by chemical analysis contains only one trace sodium ion per

81 The chemical analysis coupled with the transmission electron

82 ic substrates more attractive for single-use chemical analysis devices.

83 e fruits have been subjected to physical and chemical analysis during the fruit life cycle.

84 By chemical analysis, endoarabinanase digestion, high pH an

85 Mineral analysis by microscopy, chemical analysis, energy-dispersive analysis, and infra

86 using UV spectrophotometry (190-400 nm) and chemical analysis (enological analysis, polyphenols, oli

87 was determined by electron spectroscopy for chemical analysis (ESCA) and X-ray absorption near-edge

88 es used as chemical sensors for point-of-use chemical analysis, especially during border security app

89 Chemical analysis, experiments involving interception of

90 3D Nanoscale chemical analysis extracted from atom probe tomography (

91 ely parallel separations for high-throughput chemical analysis for process monitoring, combinatorial

92 iological endpoints may therefore complement chemical analysis for water quality assessment.

93 sumed to be impressions; however, a detailed chemical analysis has, until now, never been completed o

94 FT-IR spectroscopy and chemical analysis have allowed one to detect on the phot

95 on two different sites, allowing unambiguous chemical analysis, have remained elusive.

96 iner walls and hence has been used widely in chemical analysis, high-temperature processing, drop dyn

97 d over 100 samples of snow and meltwater for chemical analysis in 2008 and 2009 from the watershed sn

98 We here identify, through chemical analysis in combination with a series of physio

99 genome sequencing, comparative genomics, and chemical analysis in four plant-associated enterobacteri

100 Rapid, in situ, and label-free chemical analysis in microfluidic devices is highly desi

101 oxine, strict regulations enforce a detailed chemical analysis in order to characterize potentially t

102 ometry, which became a routine technique for chemical analysis in the mid-20th century.

103 and erythromycin) have been detected through chemical analysis in the PRE sediments, but not in the S

104 Physico-chemical analysis included the identification and semi q

105 we developed a platform that integrated the chemical analysis, including identification and relative

106 Chemical analysis indicated that V species did not leach

107 Correlative chemical analysis indicates that the vesicle wall is com

108 ally, monolignol feeding and lignin-specific chemical analysis indicates the presence of archetypal l

109 zed by single-crystal X-ray crystallography, chemical analysis, infrared spectroscopy, thermogravimet

110 tectors, challenging the use of conventional chemical analysis instrumentation, which often relies up

111 Their emerging use in chemical analysis is a result of several ideal character

112 y of the device to high-throughput multiplex chemical analysis is demonstrated by colorimetric and fl

113 n using cell-based biosensors for repetitive chemical analysis is loss of agonist-induced response ca

114 cal imaging, materials analysis, and routine chemical analysis, it is desirable to have a toolkit of

115 subjected to comprehensive spectroscopic and chemical analysis, leading to reassignment/assignment of

116 ensured by documented traceability, although chemical analysis may add information that is useful for

117 ed sensitivity and a wider dynamic range for chemical analysis, medical diagnostics, and in vivo mole

118 A multiresidue chemical analysis methodology, using solid phase extract

119 n-chip" systems could allow high-performance chemical analysis methods to be performed in situ over d

120 most abundant chemicals identified by target chemical analysis of >100 organic micropollutants and ef

121 Chemical analysis of 2 thrombi demonstrated 99 to 147 mi

122 It was applied to the evaluation of wood chemical analysis of 736 hybrid aspen trees: wild-type c

123 utility of this ion source for comprehensive chemical analysis of a series of aromatic and halogenate

124 Initially our chemical analysis of a Streptomyces strain associated wi

125 hod relies on the combined use of a CHARON ("Chemical Analysis of Aerosol Online") particle inlet and

126 demonstrate that atom-by-atom structural and chemical analysis of all radiation-damage-resistant atom

127 Chemical analysis of AMZ and bacteria showed that Al, P,

128 Chemical analysis of an Australian coastal marine sedime

129 Chemical analysis of an Australian marine sediment-deriv

130 Chemical analysis of atmospheric aerosols is an analytic

131 In this work, a more detailed chemical analysis of biofuel PM was undertaken using a c

132 nd mass spectrometry have revolutionized the chemical analysis of biological molecules, including pro

133 e amplitude modulation fluorometry assay and chemical analysis of biologically active fractions using

134 he applicability of common methods for rapid chemical analysis of biomass samples with respect to acc

135 Compared with caffeine intake based on chemical analysis of brewed beverages, 3-d prospective f

136 gnificantly contribute to the nondestructive chemical analysis of buried thin films and interface str

137 dual-energy X-ray absorptiometry (DXA) with chemical analysis of carcasses of pigs in the pediatric

138 andardized to a known laboratory standard of chemical analysis of carcasses.

139 Chemical analysis of cell wall polysaccharides and glyco

140 the sensitivity and efficacy of microfluidic chemical analysis of complex organics with relevance to

141 nd SHG microscopy for an enhanced label-free chemical analysis of crystallized structures in diseased

142 This research includes a chemical analysis of effluents discharged from three WWT

143 lication of this method to the combinatorial chemical analysis of electrode materials and electrocata

144 nterdigitated array (IDA) electrode enabling chemical analysis of electrolyzed samples directly from

145 Chemical analysis of exceptionally well-preserved colore

146 New, rapid, direct chemical analysis of extracellular matrix components obt

147 Cosmochemistry is the chemical analysis of extraterrestrial materials.

148 Here we report the chemical analysis of food residues associated with Late

149 Chemical analysis of fruit bodies revealed that they are

150 oring of mZVI particle injection is based on chemical analysis of groundwater and soil samples and th

151 inspection of fur, augmented by quantifiable chemical analysis of hair melanins, suggested four pheno

152 We present a method for in situ chemical analysis of human coronary artery using near-in

153 Chemical analysis of inactivated zwittermicin A by 1H NM

154 The rapid chemical analysis of individual cells is an analytical c

155 ecome available, and when high-level quantum chemical analysis of intermolecular interactions of larg

156 oftware should be a great aid in large-scale chemical analysis of ligands binding specific targets of

157 This new approach made possible the chemical analysis of liquid collected from both types of

158 Chemical analysis of low-pH culture filtrates showed tha

159 A comparative quantum-chemical analysis of major decomposition mechanisms in p

160 Comprehensive physico-chemical analysis of Map S397 extracts confirmed the str

161 itectures which can support multidimensional chemical analysis of mass-limited samples requiring sequ

162 toelectron spectroscopy strategy for surface chemical analysis of materials.

163 Chemical analysis of membrane-bound containers such as s

164 Recent literature has begun to focus on the chemical analysis of mephedrone and related substituted

165 und to be a robust and flexible tool for the chemical analysis of metals because the sample emission

166 oscopy (NELIBS) was applied to the elemental chemical analysis of microdrops of solutions with analyt

167 Chemical analysis of mutant extracts enabled us to isola

168 g in the brain is employed frequently in the chemical analysis of neurological function and disease,

169 in response to a chemical signal, and direct chemical analysis of phospholipids.

170 of phosphorylation sites in proteins through chemical analysis of phosphopeptides.

171 in planta applications by presenting in situ chemical analysis of plant cell wall components, epicuti

172 ools that provide noninvasive structural and chemical analysis of plant tissues at the cellular scale

173 ed around the body in mammalian species, and chemical analysis of plasma can provide a wealth of info

174 olecules for biomedical applications and the chemical analysis of polymers.

175 The chemical analysis of precisely dated tree rings, called

176 the structural characterization and quantum chemical analysis of proposed intermediate species.

177 conservation using an automated physical and chemical analysis of proteins.

178 Chemical analysis of recombinant protein showed that alt

179 a novel method of disease detection based on chemical analysis of released volatile organic compounds

180 The chemical analysis of salicylic acid, jasmonic acid, indo

181 We report a chemical analysis of Se in Brassica seeds (canola, India

182 imate community drug consumption through the chemical analysis of sewage biomarkers of illicit drugs.

183 However, the quantitative chemical analysis of single-cell lysates remains difficu

184 Chemical analysis of small extracellular vesicles (sEVs)

185 red microspectroscopy is widely used for the chemical analysis of small samples.

186 y desorption electrospray ionization enables chemical analysis of small volumes and concentrations of

187 oxy for broad spectrum solar irradiance, the chemical analysis of spores and pollen offers unpreceden

188 Crystal chemical analysis of structures presented here and known

189 The structural and chemical analysis of synthesized nanocomposites was cond

190 mass spectrometry (NIR-LDI-AMS) was used for chemical analysis of the aerosol.

191 Chemical analysis of the bacterial volatile emissions re

192 Chemical analysis of the biofilm matrix shows that the c

193 DNA sequence comparison and chemical analysis of the cell wall identified adr as the

194 Structural and chemical analysis of the channel combined with temperatu

195 Herein, synthesis methods and details of the chemical analysis of the compounds in this series are de

196 Isolation and chemical analysis of the DTNB-treated GIF derivative rev

197 Chemical analysis of the estrogenic samples indicated 2

198 Chemical analysis of the fecal extract of B. germanica r

199 Chemical analysis of the LPS in strain CE367 demonstrate

200 Chemical analysis of the LPS revealed that the core olig

201 Serological tests and chemical analysis of the major polysaccharide capsule of

202 opanoid pathway via the characterization and chemical analysis of the metabolites in the p-coumaryl,

203 M, which gives a comprehensive, quantitative chemical analysis of the monolith at a spatial resolutio

204 The physico-chemical analysis of the needle-shaped birefringent crys

205 Biophysical and chemical analysis of the nitrite-deoxyhemoglobin reactio

206 Full chemical analysis of the O-antigens of these strains ide

207 Chemical analysis of the oral secretion from beet armywo

208 Chemical analysis of the particles shows the presence of

209 rst time, a nondestructive method for direct chemical analysis of the reaction profile within the ele

210 Chemical analysis of the resistant isolates showed decre

211 Chemical analysis of the resuspended PM indicated a tota

212 lated values with the values obtained from a chemical analysis of the same food, we performed a chemi

213 tance from the sample surface, and (3) local chemical analysis of the solid surface by confocal Raman

214 Chemical analysis of the test atmosphere and liquid reve

215 The chemical analysis of the THT ring cleavage product showe

216 Chemical analysis of the wild-type and mutant strains en

217 etect residues in urines and only the direct chemical analysis of urine samples confirmed both beta-a

218 at residency of euryhaline elasmobranchs via chemical analysis of vertebrae.

219 In this study, we utilize chemical analysis of visual cycle retinoids to assess ph

220 tem will have application to high-throughput chemical analysis on a nanoliter scale by enabling sever

221 bility of the method to provide quantitative chemical analysis on known lipid mixtures.

222 Quantum chemical analysis on several therapeutically important g

223 ctrometers is the ability to perform in situ chemical analysis on target samples in their native stat

224 Quantum chemical analysis on the imidazole, oxazole, and thiazol

225 lavour was studied by sensory evaluation and chemical analysis (organic acids, mannitol, phenolic com

226 prehensive analysis of PCS, termed PA physio-chemical analysis (PAPCA), can lead to very rich diagnos

227 Chemical analysis performed herein reveals nonspecific m

228 Surface sampling for chemical analysis plays a vital role in applications lik

229 The water from chemical analysis presumably occurs as disordered molecu

230 values for the reference fetus derived from chemical analysis previously.

231 Chemical analysis reported here reveals that bus-2 is in

232 Chemical analysis revealed a dramatic reduction of arabi

233 Chemical analysis revealed that the extract was composed

234 g of 5S rRNA to its functional form and with chemical analysis revealing seven post-transcriptional r

235 absorption fine structure spectroscopy, and chemical analysis reveals that Tc(IV) replaces Fe(III) i

236 Bulk chemical analysis, scanning electron microscopy, seconda

237 ituations selected to illustrate challenging chemical analysis scenarios.

238 e current study utilised a bioassay-directed chemical analysis scheme to screen the anti-inflammatory

239 Chemical analysis showed chia is a source of protein (19

240 became pheomelanosome-like in structure, and chemical analysis showed that eumelanin production was s

241 Destructive chemical analysis showed that the relative extracellular

242 Chemical analysis showed the Cabernet Sauvignon used in

243 ighly consistent with the measured levels by chemical analysis, showing a significant correlation (r(

244 However, challenges in their chemical analysis, sometimes at trace levels, and unders

245 ition were investigated during retting using chemical analysis, specific glycanase degradation and im

246 Uncertainty has been evaluated for sampling, chemical analysis, stability of drug biomarkers in sewag

247 Basic winemaking parameters and some key chemical analysis, such as concentration of glycerol, bi

248 ioning as a specific, rather than a general, chemical analysis system.

249 n one of the major challenges of micro total chemical analysis systems for the past 15 years.

250 he first of a new generation of microfluidic chemical analysis systems with sufficient analytical per

251 ic networks suitable for use in miniaturized chemical analysis systems.

252 ify by mutagenesis, structural modeling, and chemical analysis the unexpected catalytic participation

253 From chemical analysis, there are 0.25 g of phospholipids and

254 d in T. cruzi but was shown by (31)P-NMR and chemical analysis to be particularly associated with aci

255 ytical tools can be applied complementary to chemical analysis to detect the effects of complex chemi

256 bined solid-state (13)C NMR spectroscopy and chemical analysis to examine the SOM in a Japanese cedar

257 otential for stable isotope ratio as well as chemical analysis to find indications for fraud or spoil

258 nization mass spectrometry, and quantitative chemical analysis to identify the principal reaction pro

259 that combine sophisticated histological and chemical analysis to precisely sample tooth layers that

260 nic X-ray Photoelectron Spectroscopy and wet chemical analysis to study sulfur oxidation products dur

261 We have performed a high-level quantum chemical analysis to study the chromophore-protein inter

262 loy an ultrasensitive three-dimensional (3D) chemical analysis to uncover the dynamic formation of in

263 embryo toxicity test were applied along with chemical analysis to water extracts from the Danube Rive

264 g a rotating drum impactor (RDI) and organic chemical analysis using direct liquid extraction surface

265 ffer tremendous opportunities for biological/chemical analysis using extremely small sample volumes.

266 Chemical analysis using laser ablation at irradiance abo

267 data opens significant prospects for mobile chemical analysis using NMR.

268 sed in terms of unit, mode of expression and chemical analysis, using information in national food co

269 "pseudolaratriene." Combined NMR and quantum chemical analysis verified the structure of pseudolaratr

270 Improved methodology for chemical analysis via laser-excited Shpol'skii spectrome

271 Explicit chemical analysis was accomplished by introducing the GC

272 ng pressure differences, high sensitivity in chemical analysis was also achieved, with limits of dete

273 Destructive chemical analysis was also performed 5 days after therap

274 To achieve signal statistics, the chemical analysis was carried out with a sequence of sto

275 Furthermore, a high-level quantum chemical analysis was performed to analyze contributions

276 sory analysis, consumer testing and detailed chemical analysis was used to better define the relation

277 Chemical analysis was used to obtain information about t

278 By carrying out a surface chemical analysis, we show that through exposure to ambi

279 hemical fractionation and bioactivity-guided chemical analysis were used to identify the bio-active e

280 the importance of using both biological and chemical analysis when assessing new treatment technolog

281 mpared by using averaged root mean square to chemical analysis, which was used as the reference stand

282 ure and ruggedized pumping system, it allows chemical analysis while the instrument is being carried.

283 ional devices and systems for biological and chemical analysis with better sensitivity and specificit

284 resolution, which can be ionized for further chemical analysis with MS.

285 Our approach combines surface chemical analysis with X-ray photoelectron and Auger ele

286 Chemical analysis with X-ray photoelectron spectroscopy

287 Subsequent chemical analysis within each microchannel, achieved via

288 resulting solids were characterized by bulk chemical analysis, X-ray diffraction, scanning electron

289 Chemical analysis yielded data on the content of reducin