ライフサイエンスコーパス: complex mixture

1 Particulate matter (PM) is a complex mixture.

2 extracted from 2D and 3D NMR spectra of the complex mixture.

3 y contributors to the biological effect of a complex mixture.

4 duct ion mobility in identifying lipids in a complex mixture.

5 e same structural information contained in a complex mixture.

6 of multiple neutral and anionic species in a complex mixture.

7 egy to mark or identify individuals within a complex mixture.

8 oteolytic fragments and native proteins in a complex mixture.

9 f ionic species as well as for separation of complex mixtures.

10 htop spectrometers to probe phospholipids in complex mixtures.

11 ng for higher throughput analysis of GAGs in complex mixtures.

12 with metabolomics require tools to decipher complex mixtures.

13 identification of small molecules buried in complex mixtures.

14 pacity of compounds in standard solutions or complex mixtures.

15 ol to characterize unidentified compounds in complex mixtures.

16 anic compounds, such as drug metabolites, in complex mixtures.

17 conformational isomers) in solution leads to complex mixtures.

18 on a lignin sample, both significantly more complex mixtures.

19 olecules to untargeted separations of highly complex mixtures.

20 vity and peak capacity for the separation of complex mixtures.

21 new analytical technique for the analysis of complex mixtures.

22 entify isomeric and epimeric structures from complex mixtures.

23 he hierarchy of metabolite assimilation from complex mixtures.

24 arly suitable for analytical applications on complex mixtures.

25 , and holds both for monomolecular odors and complex mixtures.

26 concentration of the target compound even in complex mixtures.

27 e data which classify individual analytes or complex mixtures.

28 ffects but they are difficult to identify in complex mixtures.

29 antitative accuracy and depth of coverage in complex mixtures.

30 to detect and identify organic molecules in complex mixtures.

31 , no mass discrimination, and it can analyze complex mixtures.

32 d the occurrence of severe matrix effects in complex mixtures.

33 pportunity for molecular analysis of natural complex mixtures.

34 and its ability to help researchers decipher complex mixtures.

35 able analytical system for field analysis of complex mixtures.

36 MWGs that can selectively self-organize from complex mixtures.

37 meric diversity and elemental composition of complex mixtures.

38 resis apparatus to fractionate bacteria from complex mixtures.

39 s multicomponent enantiospecific analysis of complex mixtures, a capability that will have substantia

40 LC) now make separation and analysis of very complex mixtures achievable.

41 oach derive from the improved performance in complex mixture analysis affording detailed characteriza

42 turization for point-of-care testing, direct complex mixture analysis via ambient ionization, chemica

43 study of (3)CDOM* is hampered by it being a complex mixture and its low average intersystem crossing

44 for the straightforward comparison between a complex mixture and single compound toxicity is still ch

45 lity separations aids in deconvoluting these complex mixtures and addressing the challenges of lipid

46 recovery is often costly, incompatible with complex mixtures and energy-intensive.

47 ich impedes analysis of unknown proteins and complex mixtures and exponentially greater susceptibilit

48 s to investigate the behavior of analytes in complex mixtures and matrixes with the use of solid-phas

49 S for the detection of target molecules from complex mixtures and the clinical relevance of recent wo

50 ethod has been optimized for the analysis of complex mixtures and used so far for the analysis of sma

51 ement of chemical properties of molecules in complex mixtures and, in concert, are sensitive enough t

52 provides chemical identity and abundance for complex mixtures, and here, we use microdroplet generati

53 ors excel at distinguishing small changes in complex mixtures, and this capability is being leveraged

54 hat can identify which individual cells in a complex mixture are secreting specific analytes.

55 mixtures of imines and we show that if such complex mixtures are also dynamic-that is, if their comp

56 mic profiles in aquatic organisms exposed to complex mixtures are lacking in the literature, despite

57 Untargeted molecular analyses of complex mixtures are relevant for many fields of researc

58 allowed direct mass spectrometry analysis of complex mixtures at a sample consumption rate less than

59 atile organic compounds (VOCs) in moderately complex mixtures at concentrations encountered in indust

60 While metabolites are often present in complex mixtures at extremely different concentrations,

61 ar-real time the concentrations of dyes in a complex mixture based on previously trained data.

62 S-FT-ICR MS for the unsupervised analysis of complex mixtures based on the characterization of the co

63 e analysis of a large number of compounds in complex mixtures, but standard methods typically require

64 it to detect any DNA/RNA oligo (target) in a complex mixture by conducting voltage-driven ion-channel

65 rs to detect and identify small molecules in complex mixtures by nuclear Overhauser effect magnetizat

66 n, our results stress how minor compounds in complex mixtures can produce a meaningful behavioural re

67 In very complex mixtures, classification by chemometric methods

68 for the resolution of both polar and apolar complex mixtures components by NMR spin diffusion.

69 The extracellular matrix (ECM) is a complex mixture composed of fibrillar collagens as well

70 patients, the JC viral population is often a complex mixture composed of multiple viral variants that

71 Raw natural gas is a complex mixture comprising methane, ethane, other hydroc

72 The separation of a more complex mixture containing NPs with the different coatin

73 tion monitoring, and many other fields where complex mixtures containing chiral molecules require eff

74 al and for metabolomics in particular, where complex mixtures containing hundreds of metabolites over

75 PGC LC-MS of complex mixtures demonstrated that compounds eluted from

76 s grown into a powerful approach to simplify complex mixtures, disentangle isomers, and elucidate the

77 ment of glycoproteins and glycopeptides from complex mixtures, emphasizing methods that exploit uniqu

78 tive for the detection and quantification of complex mixtures, even integrated by highly similar or s

79 erpretational challenges due to increasingly complex mixture evidence.

80 citalopram; low = metformin) contributed to complex mixture evolution along the stream reach.

81 on of individual compounds generate evolving complex mixture exposure conditions for biota, with impl

82 glycolipidomics was demonstrated on a highly complex mixture extracted from a normal fetal frontal lo

83 d top-down characterization of proteins from complex mixtures extracted from human and swine heart ti

84 f target peptides into a given fraction from complex mixture, followed by selected reaction monitorin

85 reagent to identify living beta-cells within complex mixtures for further manipulation and characteri

86 or ionizing volatile molecules directly from complex mixtures for sensitive detection by mass spectro

87 In the case of complex mixtures for which some molecules are diffusing

88 lowed for a semiquantitative analysis of the complex mixtures formed, showing that the reactions proc

89 column was also tested for separation of two complex mixtures: gasoline headspace and kerosene.

90 ronmentally relevant concentrations of these complex mixtures has not been characterized in wild bird

91 fragmentation of modified peptides within a complex mixture have thus been proposed.

92 fragments with mass sensitivity probes in a complex mixture improves the detection of resulting bioc

93 Scotch Whisky has been analysed as a complex mixture in its raw form using high resolution Nu

94 method to identify OP-adducted proteins from complex mixtures in a nontargeted manner.

95 t approaches oversimplify useful, chemically complex mixtures in an attempt to rationalize the commer

96 etabolite identification in semi-complex and complex mixtures in in vitro or in vivo drug studies and

97 ed to mass-spectrometry detection to resolve complex mixtures in minute ( approximately 100 ng) sampl

98 ive tools for determining toxic potencies of complex mixtures in the environment.

99 ng and quantifying the relevant API forms in complex mixtures in the presence of each other and in th

100 Disinfection by-products exist as complex mixtures in water supplies, but THMs and HAAs ha

101 ach that applies chemical lumping methods to complex mixtures, in this case gasoline, based on biolog

102 eous emissions from livestock production are complex mixtures including ammonia, methane, volatile or

103 d identification of known compounds within a complex mixture is crucial in the search for novel natur

104 ds to a single elemental composition, from a complex mixture is isolated and fragmented by infrared m

105 The analysis of complex mixtures is an important but often intractable p

106 eceptor responses to a representative set of complex mixtures is intractable due to the vast number o

107 t, practical, and nondestructive analysis of complex mixtures is vital in many branches of chemistry.

108 monstrated with petroleum as an example of a complex mixture, its basic framework will be useful for

109 number of resolved components in analyses of complex mixtures (like oil and natural organic matter (N

110 ion of individual esters has been studied in complex mixtures mimicking red wine models.

111 yotropic-phase formation also occurs in more complex mixtures more closely resembling compositions of

112 When dealing with trace analysis of complex mixtures, NMR suffers from both low sensitivity

113 ieties are able to oxidize TMPD and that the complex mixture of (3)CDOM* can be simplified to a singl

114 of a C60 fullerene bisadduct racemate from a complex mixture of 130 bisadducts.

115 -Leu-L-Pro) and cyclo(L-Pro-L-Pro), from the complex mixture of a chemical signal in terrestrial vert

116 c glycation of Abeta1-42, which results in a complex mixture of AGE-modified peptides and makes inter

117 Atmospheric pollution represents a complex mixture of air chemicals that continually intera

118 albumin against a background response to the complex mixture of antigens which characterize Complete

119 ffron spice owes its red color to crocins, a complex mixture of apocarotenoid glycosides that accumul

120 ch has been attributed to differences in the complex mixture of bioactive compounds and their interac

121 Disinfected wastewater effluent contains a complex mixture of biomolecules including DNA.

122 We have detected a complex mixture of both odd- and even-alkyl chain alkylr

123 at a spacing of 0.0034 Da at m/z 597 from a complex mixture of Canadian bitumen.

124 Tumors are a complex mixture of cell types, both genetically heteroge

125 ive partners because parents contribute to a complex mixture of cells during reproduction.

126 their microbial pathogens, is composed of a complex mixture of cellulose, hemicellulose, and pectin

127 Taxol accumulates as part of a complex mixture of chemical analogs, termed taxoids, whi

128 Fish can be exposed to a complex mixture of chemical contaminants, including phar

129 Separation of the complex mixture of chemicals in the AF extract with reve

130 -) cigarette aerosol (particle and gas) is a complex mixture of chemicals, of which the profile is hi

131 gulators of rhizosphere ecology, secreting a complex mixture of compounds into the soil, collectively

132 multaneously, so the observed diffusion is a complex mixture of diffusive behaviors (directed, Browni

133 n of extremely rare variant alleles within a complex mixture of DNA molecules is becoming increasingl

134 om a few nanometers to micrometers and are a complex mixture of drugs and excipients.

135 eticulata, also called "chenpi", possesses a complex mixture of flavonoids and has a history of tradi

136 The process was applied to a complex mixture of FOS obtained in an enzymatic synthesi

137 we describe the first sequencing method of a complex mixture of heparan sulfate tetrasaccharides by L

138 (autoxidation) of cholesterol yields a more complex mixture of hydroperoxide products than previousl

139 This suggests that the complex mixture of inorganic and organic components foun

140 OSPW is a complex mixture of inorganic and organic substances and

141 ptomes of rare, single megakaryocytes from a complex mixture of lymphocytes and analyzed them in a se

142 Colorectal cancers comprise a complex mixture of malignant cells, nontransformed cells

143 action partner with a given chirality from a complex mixture of many possible racemic partners.

144 We investigated the impact of a complex mixture of metals on birth weight for gestationa

145 dies is that the DNMs of an individual are a complex mixture of mutations that arise through differen

146 Natural organic matter (NOM) is a highly complex mixture of natural organic molecules.

147 t study, we utilize this system to explore a complex mixture of oligoporphyrans derived from the enzy

148 ss spectrometry (GCxGC-TOFMS), an unresolved complex mixture of organic compounds was identified in t

149 Humans are inevitably exposed to a complex mixture of organic contaminants (i.e., xenobioti

150 activated carbon for the rapid removal of a complex mixture of organic micropollutants at environmen

151 On a molecular level, NOM is a complex mixture of organic molecules, of which the vast

152 lear membrane lipid extract is composed of a complex mixture of phospholipids with different phosphat

153 f the TBSV replicase revealed the need for a complex mixture of phospholipids, especially phosphatidy

154 The hNM lipid extract was composed of a complex mixture of phospholipids, with high amounts of p

155 A complex mixture of phosphopeptides showed similar covera

156 he funeral context by ancient Egyptians is a complex mixture of plant-based compounds with variable a

157 ook peptide 3 KRGRGRPRK [M + 2H](+2)), and a complex mixture of polyaromatic hydrocarbons (PAH) from

158 bedded within a matrix that is composed of a complex mixture of polysaccharides, proteins, and DNA.

159 tion in a different way and immunised with a complex mixture of polysaccharides.

160 t responders at fire scenes are exposed to a complex mixture of potentially hundreds to thousands of

161 Gluten describes a complex mixture of proteins found in wheat, rye, barley

162 poorly understood due to the generation of a complex mixture of radiolysis products by the electron b

163 onic devices containing TBBPA contain also a complex mixture of related brominated chemicals.

164 EOs are complex mixture of secondary metabolites (terpenes, phen

165 major components of GPI-0100, a widely used complex mixture of semisynthetic derivatives of Quillaja

166 The dynamics of RNA assembly in a complex mixture of sequences is a frequency-dependent pr

167 To simultaneously quantify and profile the complex mixture of short-, median-, and long-chain CPs (

168 ysicochemical diversity, characterizing this complex mixture of small molecules and how it varies acr

169 ltimately elucidate, atomic novelty within a complex mixture of small molecules.

170 In plants, a complex mixture of solutes and macromolecules is transpo

171 tprint of the industrial sector represents a complex mixture of stationary combustion and process emi

172 ,N'-tetramethylethane-1,2-diamine] yielded a complex mixture of stereoisomers of a chiral octahedral

173 Pomegranate juice is a complex mixture of structurally diverse compounds appear

174 nments, are coated with a film composed of a complex mixture of substances, referred to as urban grim

175 ed systematic effects were probably due to a complex mixture of toxic chemicals leaching from CR, suc

176 aggressive form of brain cancer, comprises a complex mixture of tumor cells and nonmalignant stromal

177 Methane emissions in the Barnett are a complex mixture of urban, agricultural, and fossil fuel

178 volatile organic macromolecular materials: a complex mixture of various types of carbon-hydrogen and/

179 unsaturated fatty-acids that readily yield a complex mixture of volatile organic compounds that can a

180 Residential and commercial fires generate a complex mixture of volatile, semivolatile, and nonvolati

181 ate the separation and the identification of complex mixtures of analytes.

182 r ultrasensitive molecular fingerprinting of complex mixtures of biomolecules or organic crystals wit

183 s constitutes a powerful approach to resolve complex mixtures of cancer cells by tracing cell lineage

184 mass spectrometry (MALDI MS) is limited for complex mixtures of carbohydrates due to their low ioniz

185 antifying single chemicals to characterizing complex mixtures of chemicals in indoor and outdoor envi

186 SCCPs are complex mixtures of chlorinated alkanes with variable ch

187 ly applied to the separation and analysis of complex mixtures of closely related pharmaceuticals and

188 Chromatographic separation and analysis of complex mixtures of closely related species is one of th

189 onsible for the biosynthesis and delivery of complex mixtures of cysteine-rich toxin peptides.

190 d to remediate groundwater contaminated with complex mixtures of different types of PFASs.

191 ight the sensitivity of smFRET for analyzing complex mixtures of DNA structures.

192 involving achiral and chiral separations of complex mixtures of enantiomeric species.

193 People are often exposed to complex mixtures of environmental chemicals such as gaso

194 ic risk marine mammals face from exposure to complex mixtures of environmental contaminants.

195 As a result, we demonstrate that in complex mixtures of fluorophores, the relative concentra

196 Environmental DNA sequence samples are complex mixtures of fragments from many different specie

197 They emit complex mixtures of gas-phase organic compounds that var

198 nce and using these 'DNA barcodes' to search complex mixtures of genomic material for DNA molecules o

199 is method represents the first sequencing of complex mixtures of HS oligosaccharides, an essential mi

200 Complex mixtures of hydrocarbons are ubiquitous as petro

201 Petroleum products and essential oils are complex mixtures of hydrophobic and volatile chemicals a

202 ctrometry (ESI-MS) is implemented to analyze complex mixtures of InsPs and PP-InsPs with high sensiti

203 Analysis of complex mixtures of intact monolayer-protected clusters

204 behavior of select IOCs is well-understood, complex mixtures of IOCs, e.g., from oil sands process-a

205 do not represent the real world situation of complex mixtures of known and unknown natural and anthro

206 Chemical characterization of complex mixtures of large saturated hydrocarbons is crit

207 ity necessary to differentiate components in complex mixtures of lipid adducts.

208 or processing NMR data of biomacromolecules, complex mixtures of metabolites as well as material samp

209 However, extracting novel genomes from complex mixtures of metagenomic data can still be challe

210 Complex mixtures of molecular species, such as glycoprot

211 leophile-promoted thiol-Michael reactions in complex mixtures of multiple thiols and/or acceptors rem

212 ht the ease with which CaR-ESI-MS can screen complex mixtures of N-glycans for interactions.

213 (LTQ-Velos Pro, Thermo Fisher) for resolving complex mixtures of natural aquatic dissolved organic ma

214 th and without DSS-induced colitis, we found complex mixtures of nutrients affect intestinal permeabi

215 in reality we are continually presented with complex mixtures of odors.

216 tionally and taxonomically and co-occur with complex mixtures of organic pollutants in aquatic enviro

217 c-related air pollution (TRAP) is made up of complex mixtures of particulate matter, gases and volati

218 nd applications in various systems involving complex mixtures of photochemically produced oxidants of

219 ificial mixtures and was able to distinguish complex mixtures of polioviruses in environmental sample

220 CPs are produced and used as complex mixtures of polychlorinated n-alkanes containing

221 Complex mixtures of polycyclic aromatic hydrocarbons (PA

222 The blowout released complex mixtures of polycyclic aromatic hydrocarbons (PA

223 a 2D MS method is developed to characterize complex mixtures of polymers using infrared multiphoton

224 gical processes and are naturally present as complex mixtures of polysaccharides with tremendous stru

225 ethod for monitoring of peptide abundance in complex mixtures of processed proteins.

226 f soil, plant and aquatic samples containing complex mixtures of proteins, carbohydrates, lipids, lig

227 Complex mixtures of R-LPS from either Escherichia coli o

228 potential of PI for hydrocarbons, base oils, complex mixtures of saturated and unsaturated hydrocarbo

229 urate mass spectrometric characterization of complex mixtures of saturated hydrocarbons, the ion sour

230 e tandem mass spectrometry-based analysis of complex mixtures of several phospholipid classes has bee

231 nalyze gene-expression changes that occur in complex mixtures of single cells as they respond to sign

232 Complex mixtures of sounds often arrive at the ears simu

233 nal groups by infrared spectroscopy, even in complex mixtures of terpenes.

234 When complex mixtures of the amine reactants are employed in

235 rther showed that the ATRaS system works for complex mixtures of trypsin-digested cell lysate.

236 ETD using standard peptides in addition to a complex mixtures of tryptic peptides using LC-MS/MS, sho

237 nce of all RP and HILIC models developed for complex mixtures of tryptic peptides.

238 In complex mixtures of up to 12 odorants, antagonistic inte

239 Natural odor stimuli are complex mixtures of volatile chemicals that interact in

240 Most natural odors are complex mixtures of volatile components, competing to bi

241 environment, anatase nanoparticles form bio-complexes (mixture of proteins and ions) which act as a

242 h appears useful in examining the impacts of complex mixtures on fish and offers a potential route in

243 aining oligonucleotides can be enriched from complex mixtures, paving the way for applications to ide

244 These are often produced as complex mixtures, presumably shaped by selective pressur

245 y and the functional group diversity of this complex mixture prevents the efficient ionization of the

246 ed with liquid chromatography and applied to complex mixtures, produces large amounts of raw data, wh

247 Our results showing lower effect levels for complex mixtures relative to single compounds suggest th

248 and characterization of large proteins from complex mixtures remain challenging due to the exponenti

249 s have focused on simple substrates, not the complex mixtures representative of the soil environment.

250 Identification of metabolites in complex mixtures represents a key step in metabolomics.

251 ogen exchange (HX) mass spectrometry (MS) of complex mixtures requires a fast, reproducible, and high

252 er molecular formulas can be resolved from a complex mixture (roughly one third as many), meaning som

253 of the spectra of components present in the complex mixtures such as biofluids.

254 solution and mass accuracy needed to analyze complex mixtures such as crude oil.

255 potential for an exhaustive study of highly complex mixtures such as crude oils.

256 ltaneously, making it ideal for the study of complex mixtures such as plant extracts.

257 d to high-throughput metabonomic analysis of complex mixtures such as urine combined with a 5-fold re

258 Identification of metabolites in complex mixtures, such as a biomass hydrolysate, is simp

259 of low abundance proteins or rare cells from complex mixtures, such as blood, is required for many di

260 The method is applied to the analysis of complex mixtures, such as gasoline, and much less matrix

261 d knotted molecules, even when they exist in complex mixtures, such as interconverting dynamic combin

262 ine an unprecedented number of components in complex mixtures, such as petroleum.

263 eparation and identification of compounds in complex mixtures targeting the alpha7-nAChR.

264 g the redox status of individual proteins in complex mixtures tend to identify the same proteins due

265 nd identification of individual PLGAs from a complex mixture that is critical for the quality control

266 the stabilities of individual components of complex mixtures that are inaccessible by traditional ca

267 h complex glycopeptides can be identified in complex mixtures to aid in characterizing both the site

268 hniques to separate peptide populations from complex mixtures to establish their identity through the

269 cific cell types or subpopulations from such complex mixtures to study their metabolic phenotypes is

270 racterization of glycoconjugates, especially complex mixtures typical in biological samples.

271 ar basis, instead appearing as an unresolved complex mixture (UCM) during gas-chromatography mass-spe

272 etween C12-C36, in the previously unresolved complex mixture (UCM) of two motor oil samples.

273 pids (4 phospholipids and 1 acylglycerol) in complex mixtures using MALDI-TOF-MS with fractional fact

274 ntitation of lipid C=C location isomers from complex mixtures using online Paterno-Buchi reaction cou

275 hat predicts mammalian receptor responses to complex mixtures using responses to single odorants.

276 ases, gain short carbonyl side chains in our complex mixtures via a Strecker-like synthesis or Michae

277 low-abundance peptides spiked into a highly complex mixture was also compared with that obtained usi

278 The complex mixture was resolved by liquid chromatography-ta

279 homogeneous RNA could have emerged from such complex mixtures, we have examined the properties of ara

280 larger ion distributions generated by these complex mixtures were differentiated using principal com

281 effectuate stochastic acquisition of data in complex mixtures, which results in missing identificatio

282 ctivity of numerous N-heterocycles in highly complex mixtures, which were generated using a Miller-Ur

283 s behavior could be readily extended to more complex mixtures while maintaining nonlinearity.

284 d annotation of S-sulfonated peptides across complex mixtures while providing sufficient sequence inf

285 lumping approach can be used to simplify any complex mixture with tens, hundreds, or thousands of con

286 Bacterial membranes are complex mixtures with dispersity that is dynamic over sc

287 ty of SLIM to obtain improved separations of complex mixtures with high sensitivity.

288 otopic resolution and can be used to analyze complex mixtures with increased dynamic range and higher

289 allenging to interpret dispersion plots from complex mixtures with many chemical constituents.

290 istributions can be studied noninvasively in complex mixtures with NMR.

291 e tissue milieu in low concentrations and in complex mixtures with other compounds of widely ranging

292 wed the ability to enrich glycopeptides from complex mixtures with subsequent MALDI analysis, and the

293 r release into environmental systems creates complex mixtures with unknown toxicological outcomes.

294 res instead characterize them as "unresolved complex mixtures", with quantification limited to a smal

295 tion of several nitroaromatic compounds in a complex mixture without prior sample preparation is demo

296 t overcome these steps by direct analysis of complex mixtures without extraction and separation.

297 ll MS/MS map for fragments and precursors of complex mixtures without hyphenation with chromatographi

298 directly measures relative concentrations in complex mixtures without need for separation.

299 ased system for the quantitative analysis of complex mixtures without the need for compressed, high-p

300 ification of unknown molecular structures in complex mixtures, without the need for extensive purific