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1 egy to mark or identify individuals within a complex mixture.
2 ading to erroneous quantification of AfB1 in complex mixture.
3  quantify AfB1 either in pure solution or in complex mixture.
4 re among the most reactive components of the complex mixture.
5 duct ion mobility in identifying lipids in a complex mixture.
6 ous identification of multiple analytes in a complex mixture.
7 d quantification of detectable peptides in a complex mixture.
8 e same structural information contained in a complex mixture.
9 of multiple neutral and anionic species in a complex mixture.
10 , and holds both for monomolecular odors and complex mixtures.
11 concentration of the target compound even in complex mixtures.
12 e data which classify individual analytes or complex mixtures.
13 ffects but they are difficult to identify in complex mixtures.
14 antitative accuracy and depth of coverage in complex mixtures.
15  identification of small molecules buried in complex mixtures.
16  to detect and identify organic molecules in complex mixtures.
17 , no mass discrimination, and it can analyze complex mixtures.
18 , particularly when present as components of complex mixtures.
19  MS) enables an improved characterization of complex mixtures.
20 ands acids) and functionalized biomarkers in complex mixtures.
21 f suppression in the 1D and 2D PSR filter of complex mixtures.
22 lain" patterns of bioactivity across diverse complex mixtures.
23 tructure determination of small molecules in complex mixtures.
24 erty estimates onto GC x GC chromatograms of complex mixtures.
25 nd quantifying nonpolar organic chemicals in complex mixtures.
26 ng of exposure to genotoxic agents and their complex mixtures.
27 pacity of compounds in standard solutions or complex mixtures.
28 hing that is rarely possible in the world of complex mixtures.
29 erformed to identify individual compounds in complex mixtures.
30 uous identification of compounds coming from complex mixtures.
31 ol to characterize unidentified compounds in complex mixtures.
32  signature spectra of targeted substances in complex mixtures.
33 to facilitate the chemical identification of complex mixtures.
34 titative determinations of soluble sugars in complex mixtures.
35 st method for mass spectrometric analysis of complex mixtures.
36 ations and thicker layers are ideal for more complex mixtures.
37  of the same nominal mass and isomers in the complex mixtures.
38 rization, and quantification of compounds in complex mixtures.
39 for identifying and quantifying compounds in complex mixtures.
40 for the identification of NN peptides within complex mixtures.
41 as a promising method for analysis of highly complex mixtures.
42 emoval of harmful, degrading components from complex mixtures.
43 n and identification of organic molecules in complex mixtures.
44 to assess the combined effects of unresolved complex mixtures.
45 is a powerful new method for the analysis of complex mixtures.
46 conformational isomers) in solution leads to complex mixtures.
47  on a lignin sample, both significantly more complex mixtures.
48 olecules to untargeted separations of highly complex mixtures.
49 vity and peak capacity for the separation of complex mixtures.
50 new analytical technique for the analysis of complex mixtures.
51 entify isomeric and epimeric structures from complex mixtures.
52 he hierarchy of metabolite assimilation from complex mixtures.
53 arly suitable for analytical applications on complex mixtures.
54 alysis of trace analytes in small volumes of complex mixtures (~1 muL) using ambient ionization mass
55 n trap mass spectrometer is demonstrated for complex mixture analysis.
56 g capabilities provides several benefits for complex mixture analysis.
57  study of (3)CDOM* is hampered by it being a complex mixture and its low average intersystem crossing
58 for the straightforward comparison between a complex mixture and single compound toxicity is still ch
59 ich impedes analysis of unknown proteins and complex mixtures and exponentially greater susceptibilit
60 s to investigate the behavior of analytes in complex mixtures and matrixes with the use of solid-phas
61 ked nucleic acid-protein heteroconjugates in complex mixtures and MS/MS characterization of the speci
62 S for the detection of target molecules from complex mixtures and the clinical relevance of recent wo
63 ine (ODA) to be employed in the desalting of complex mixtures and the results are compared with comme
64 ethod has been optimized for the analysis of complex mixtures and used so far for the analysis of sma
65 hese multicomponent systems to assemble from complex mixtures, and using NMR can determine which comp
66 hat can identify which individual cells in a complex mixture are secreting specific analytes.
67  mixtures of imines and we show that if such complex mixtures are also dynamic-that is, if their comp
68 mic profiles in aquatic organisms exposed to complex mixtures are lacking in the literature, despite
69 llutants (MPs) as individual compounds or in complex mixtures are relevant for water quality and may
70  that unspeciated organics (i.e., unresolved complex mixture) are a very important class of precursor
71 e periods which indicated the formation of a complex mixture at higher stirring time and elevated tem
72       While metabolites are often present in complex mixtures at extremely different concentrations,
73 ditionally, all analysis can be conducted in complex mixtures at physiological ionic strength.
74 d for sub-femtomolar food toxin detection in complex mixture based on nanoporous silicon oxide impeda
75 ar-real time the concentrations of dyes in a complex mixture based on previously trained data.
76 gy is reported for protein identification in complex mixtures based on integration of affinity chroma
77 S-FT-ICR MS for the unsupervised analysis of complex mixtures based on the characterization of the co
78 e analysis of a large number of compounds in complex mixtures, but standard methods typically require
79 e uniformly deprotonate acidic components of complex mixtures by negative ESI FTICR MS.
80 nstrated to be a useful technique to resolve complex mixtures by serially coupling two columns of dif
81 bles automatic, high throughput screening of complex mixtures by using at least three different ion-m
82                                      In very complex mixtures, classification by chemometric methods
83  for the resolution of both polar and apolar complex mixtures components by NMR spin diffusion.
84 patients, the JC viral population is often a complex mixture composed of multiple viral variants that
85                         Raw natural gas is a complex mixture comprising methane, ethane, other hydroc
86  increase in mass spectral dynamic range for complex mixtures, consistent with increased ion cloud li
87                     The separation of a more complex mixture containing NPs with the different coatin
88 um; thus, they are useful in the analysis of complex mixtures containing peptidases from different cl
89                                 PGC LC-MS of complex mixtures demonstrated that compounds eluted from
90 ment of glycoproteins and glycopeptides from complex mixtures, emphasizing methods that exploit uniqu
91  cannot detect all GSH conjugates present in complex mixtures, especially those present in extracts o
92 tive for the detection and quantification of complex mixtures, even integrated by highly similar or s
93 erpretational challenges due to increasingly complex mixture evidence.
94 glycolipidomics was demonstrated on a highly complex mixture extracted from a normal fetal frontal lo
95 f target peptides into a given fraction from complex mixture, followed by selected reaction monitorin
96                               In the case of complex mixtures for which some molecules are diffusing
97 lowed for a semiquantitative analysis of the complex mixtures formed, showing that the reactions proc
98 ion and detection of targeted compounds from complex mixtures from environmental matrices requires th
99 tography (SOS-LC) for improved separation of complex mixtures has been demonstrated before.
100 ronmentally relevant concentrations of these complex mixtures has not been characterized in wild bird
101 n times for individual components within the complex mixture, highlighting contributions from isomers
102 han 200% for proteins from both standard and complex mixtures, highlighting the benefits electron-dri
103 tion efficiency of membrane protein-enriched complex mixtures in a multiphase study using a gelfree a
104 fication and characterization of proteins in complex mixtures in an online fashion.
105 ed to mass-spectrometry detection to resolve complex mixtures in minute ( approximately 100 ng) sampl
106 ive tools for determining toxic potencies of complex mixtures in the environment.
107            Disinfection by-products exist as complex mixtures in water supplies, but THMs and HAAs ha
108  model peptide (angiotensin I) spiked into a complex mixture (in this case peptides generated from di
109 ach that applies chemical lumping methods to complex mixtures, in this case gasoline, based on biolog
110 s of the test atmosphere and liquid revealed complex mixtures, including acids, aldehydes, and other
111 tope ratios of whole proteins separated from complex mixtures, including cultures and environmental s
112 d identification of known compounds within a complex mixture is crucial in the search for novel natur
113 ene in any one cell or group of cells from a complex mixture is difficult.
114 b-parts-per-billion (<ppb) concentrations in complex mixtures is described.
115 al coupled with atmospheric pressure IMMS to complex mixtures is presented.
116 , pesticides, and drugs, in pure form and in complex mixtures, is reported.
117 monstrated with petroleum as an example of a complex mixture, its basic framework will be useful for
118 aration buffers allows efficient analysis of complex mixtures, its presence in the sample matrix is k
119  level systems like hemoglobin, or much more complex mixtures like total blood, erythrocytes, or hemo
120 yotropic-phase formation also occurs in more complex mixtures more closely resembling compositions of
121          When dealing with trace analysis of complex mixtures, NMR suffers from both low sensitivity
122 ieties are able to oxidize TMPD and that the complex mixture of (3)CDOM* can be simplified to a singl
123 of a C60 fullerene bisadduct racemate from a complex mixture of 130 bisadducts.
124             Humic-like substances (HULIS), a complex mixture of amphiphilic organic compounds, have b
125 albumin against a background response to the complex mixture of antigens which characterize Complete
126 , the airway surface liquid (ASL) contains a complex mixture of antimicrobial factors that kill inhal
127  during feeding, and their saliva contains a complex mixture of bioactive molecules that paralyze hos
128   Disinfected wastewater effluent contains a complex mixture of biomolecules including DNA.
129                           We have detected a complex mixture of both odd- and even-alkyl chain alkylr
130                                 Tumors are a complex mixture of cell types, both genetically heteroge
131                  Because tumor lesions are a complex mixture of cell types, we hypothesized that anal
132 ive partners because parents contribute to a complex mixture of cells during reproduction.
133                         But which out of the complex mixture of cells that form a tumor produces them
134  their microbial pathogens, is composed of a complex mixture of cellulose, hemicellulose, and pectin
135                     Fish can be exposed to a complex mixture of chemical contaminants, including phar
136      Our results suggest that at snowmelt, a complex mixture of chemicals enters aquatic ecosystems t
137 ye process introduces into the hair matrix a complex mixture of chemicals that interferes with the me
138 ysis of a number of structural variants in a complex mixture of combinatorially engineered Escherichi
139   After accounting for in-stream dilution, a complex mixture of contaminants showed little attenuatio
140 multaneously, so the observed diffusion is a complex mixture of diffusive behaviors (directed, Browni
141 n of extremely rare variant alleles within a complex mixture of DNA molecules is becoming increasingl
142  of DNA methylation during aging depend on a complex mixture of factors that include the DNA sequence
143 eticulata, also called "chenpi", possesses a complex mixture of flavonoids and has a history of tradi
144 we describe the first sequencing method of a complex mixture of heparan sulfate tetrasaccharides by L
145 (e.g., catechol) typically identified in the complex mixture of humic-like substances (HULIS).
146                       This suggests that the complex mixture of inorganic and organic components foun
147                                    OSPW is a complex mixture of inorganic and organic substances and
148                    Pulmonary surfactant is a complex mixture of lipids and specific surfactant protei
149          High-density lipoprotein (HDL) is a complex mixture of lipoproteins that is associated with
150 fraction bound of each competing member of a complex mixture of macromolecules from the basis of gene
151                Colorectal cancers comprise a complex mixture of malignant cells, nontransformed cells
152 action partner with a given chirality from a complex mixture of many possible racemic partners.
153 aneous fermentation reactions that rely on a complex mixture of microbes present in the environment.
154 ary organic aerosols (POA and SOA) contain a complex mixture of multifunctional chemicals, many of wh
155 biophysical function and allostery reflect a complex mixture of multiple characteristics including lo
156  reinforce the need to potentially provide a complex mixture of omega-3 fatty acids to maximize cardi
157                          Fish oil contains a complex mixture of omega-3 fatty acids, which are predom
158                                Red wine is a complex mixture of organic compounds including polypheno
159 ss spectrometry (GCxGC-TOFMS), an unresolved complex mixture of organic compounds was identified in t
160  activated carbon for the rapid removal of a complex mixture of organic micropollutants at environmen
161 nvironment, where they may contribute to the complex mixture of organic micropollutants.
162 utually select their pairing partners from a complex mixture of other molecules prior to polymerizati
163                                     SOA is a complex mixture of oxidized organic species, and a funda
164                                Analysis of a complex mixture of peptides yielded a peak capacity of a
165                  Hazards associated with the complex mixture of plastic and accumulated pollutants ar
166 ook peptide 3 KRGRGRPRK [M + 2H](+2)), and a complex mixture of polyaromatic hydrocarbons (PAH) from
167 tion in a different way and immunised with a complex mixture of polysaccharides.
168 t responders at fire scenes are exposed to a complex mixture of potentially hundreds to thousands of
169                           Gluten describes a complex mixture of proteins found in wheat, rye, barley
170                 Hen egg white comprises of a complex mixture of proteins, which greatly differ in the
171 rmed at the surface of liquids can promote a complex mixture of reactions in solution.
172 onic devices containing TBBPA contain also a complex mixture of related brominated chemicals.
173            The dynamics of RNA assembly in a complex mixture of sequences is a frequency-dependent pr
174   To simultaneously quantify and profile the complex mixture of short-, median-, and long-chain CPs (
175 ethora of conductance events and revealing a complex mixture of single and multi-ion phenomena with d
176  simple ecological determinism, but rather a complex mixture of social, cultural, and environmental i
177                                 In plants, a complex mixture of solutes and macromolecules is transpo
178  that future assessments should consider the complex mixture of the plastic material and their associ
179                          Venoms consist of a complex mixture of toxic components that are used by a v
180       Methane emissions in the Barnett are a complex mixture of urban, agricultural, and fossil fuel
181  SNARE levels can mask the requirement for a complex mixture of vacuole lipids.
182 volatile organic macromolecular materials: a complex mixture of various types of carbon-hydrogen and/
183  Residential and commercial fires generate a complex mixture of volatile, semivolatile, and nonvolati
184 ol, and 17-ethynylestradiol) is shown from a complex mixture of water-soluble organic matter (e.g., S
185 rement of site-specific (13)C enrichments in complex mixtures of (13)C-labeled metabolites is a power
186 recombinant monoclonal antibodies results in complex mixtures of a main isoform and numerous macro- a
187 ate the separation and the identification of complex mixtures of analytes.
188 s constitutes a powerful approach to resolve complex mixtures of cancer cells by tracing cell lineage
189  capabilities also enable the re-creation of complex mixtures of cell types that is emerging as a cen
190                                    SCCPs are complex mixtures of chlorinated alkanes with variable ch
191 ly applied to the separation and analysis of complex mixtures of closely related pharmaceuticals and
192   Chromatographic separation and analysis of complex mixtures of closely related species is one of th
193                     Preparative isolation of complex mixtures of compounds from walnut polar extracts
194 onsible for the biosynthesis and delivery of complex mixtures of cysteine-rich toxin peptides.
195                    Most real-world odors are complex mixtures of distinct molecular components.
196              Most malaria infections contain complex mixtures of distinct parasite lineages.
197 taining 750 mug to 4.76 mg/100mg of Musta in complex mixtures of DNA extracted from commercial herbal
198 ight the sensitivity of smFRET for analyzing complex mixtures of DNA structures.
199                  People are often exposed to complex mixtures of environmental chemicals such as gaso
200                   Determining the effects of complex mixtures of environmental contaminants poses man
201 ic risk marine mammals face from exposure to complex mixtures of environmental contaminants.
202                                              Complex mixtures of fluorescent compounds can be separat
203          As a result, we demonstrate that in complex mixtures of fluorophores, the relative concentra
204       Environmental DNA sequence samples are complex mixtures of fragments from many different specie
205                                    They emit complex mixtures of gas-phase organic compounds that var
206 is method represents the first sequencing of complex mixtures of HS oligosaccharides, an essential mi
207                                  Analysis of complex mixtures of intact monolayer-protected clusters
208 n separation poses a challenge for analyzing complex mixtures of intact proteins on a proteomic scale
209 do not represent the real world situation of complex mixtures of known and unknown natural and anthro
210 etry (MS/MS) strategy to support analysis of complex mixtures of lipid A combinatorially modified dur
211 y depends on their unique aroma, composed of complex mixtures of lipophilic volatile organic compound
212       However, extracting novel genomes from complex mixtures of metagenomic data can still be challe
213                                              Complex mixtures of molecular species, such as glycoprot
214 leophile-promoted thiol-Michael reactions in complex mixtures of multiple thiols and/or acceptors rem
215 (LTQ-Velos Pro, Thermo Fisher) for resolving complex mixtures of natural aquatic dissolved organic ma
216 th and without DSS-induced colitis, we found complex mixtures of nutrients affect intestinal permeabi
217 ning of organic compounds in brines and from complex mixtures of oils are presented.
218              Pyrolysis liquids from coal are complex mixtures of organic compounds with low to high m
219  they may be found within samples containing complex mixtures of other contaminating microbes and/or
220 nd applications in various systems involving complex mixtures of photochemically produced oxidants of
221                 CPs are produced and used as complex mixtures of polychlorinated n-alkanes containing
222        Many industrial sites are polluted by complex mixtures of polycyclic aromatic compounds (PACs)
223                                              Complex mixtures of polycyclic aromatic hydrocarbons (PA
224                         The blowout released complex mixtures of polycyclic aromatic hydrocarbons (PA
225  a 2D MS method is developed to characterize complex mixtures of polymers using infrared multiphoton
226                  The study demonstrates that complex mixtures of processed proteins/peptides can be e
227 s of thiol and N-substituted maleimides give complex mixtures of products.
228           Liquid-liquid phase transitions in complex mixtures of proteins and other molecules produce
229                                  Analysis of complex mixtures of proteins by hydrogen exchange (HX) m
230                                              Complex mixtures of R-LPS from either Escherichia coli o
231 potential of PI for hydrocarbons, base oils, complex mixtures of saturated and unsaturated hydrocarbo
232 e tandem mass spectrometry-based analysis of complex mixtures of several phospholipid classes has bee
233 aracterizing the full range of components in complex mixtures of small molecular weight compounds due
234 ome bacterial infections involve potentially complex mixtures of species that can now be distinguishe
235 nal groups by infrared spectroscopy, even in complex mixtures of terpenes.
236                                         When complex mixtures of the amine reactants are employed in
237 rther showed that the ATRaS system works for complex mixtures of trypsin-digested cell lysate.
238 ETD using standard peptides in addition to a complex mixtures of tryptic peptides using LC-MS/MS, sho
239 nce of all RP and HILIC models developed for complex mixtures of tryptic peptides.
240 l readily adsorbed, while other isomers from complex mixtures of xylenes or DVBs are selectively excl
241  environment, anatase nanoparticles form bio-complexes (mixture of proteins and ions) which act as a
242 raditional experiments to test the impact of complex mixtures on biological responses.
243 h appears useful in examining the impacts of complex mixtures on fish and offers a potential route in
244 rences in adsorption among the components of complex mixtures play a role in separations, surface-bas
245                  These are often produced as complex mixtures, presumably shaped by selective pressur
246 ed with liquid chromatography and applied to complex mixtures, produces large amounts of raw data, wh
247 nding natural processes which affect related complex mixture profiles.
248  Our results showing lower effect levels for complex mixtures relative to single compounds suggest th
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 predictive understanding of the way in which complex mixtures self-organize and assemble and also how
254 me and an effective approach for identifying complex mixture structures of node and link communities,
255 s a key bottleneck for metabolomic and other complex-mixture studies, particularly where quantitative
256 SD allowed the Yes/No detection of rpoB in a complex mixture such as synthetic sputum and also demons
257                            The separation of complex mixtures such as biological or environmental sam
258  from information-rich spectra obtained from complex mixtures such as heparin.
259 ltaneously, making it ideal for the study of complex mixtures such as plant extracts.
260 werful tool for the quantitative analysis of complex mixtures such as samples of metabolic relevance.
261 MS) has gained popularity in the analysis of complex mixtures such as those encountered in metabolomi
262 d to high-throughput metabonomic analysis of complex mixtures such as urine combined with a 5-fold re
263             Identification of metabolites in complex mixtures, such as a biomass hydrolysate, is simp
264 of low abundance proteins or rare cells from complex mixtures, such as blood, is required for many di
265 ine an unprecedented number of components in complex mixtures, such as petroleum.
266 and physiological state of conspecifics from complex mixtures, such as urine.
267 eparation and identification of compounds in complex mixtures targeting the alpha7-nAChR.
268 g the redox status of individual proteins in complex mixtures tend to identify the same proteins due
269 ile organic compounds (VOC) and consist of a complex mixture that is not conducive to complete compos
270  labeled tryptic digest of BSA was used as a complex mixture to assess peak capacity.
271 h complex glycopeptides can be identified in complex mixtures to aid in characterizing both the site
272 cific cell types or subpopulations from such complex mixtures to study their metabolic phenotypes is
273 y (IM-MS) can thus act as a tool to separate complex mixtures, to resolve ions that may be indistingu
274 ar basis, instead appearing as an unresolved complex mixture (UCM) during gas-chromatography mass-spe
275                               The unresolved complex mixture (UCM) frequently dominates organic extra
276 etween C12-C36, in the previously unresolved complex mixture (UCM) of two motor oil samples.
277 ostly overlooked compounds in the unresolved complex mixtures (UCM) of weathered oils.
278 pids (4 phospholipids and 1 acylglycerol) in complex mixtures using MALDI-TOF-MS with fractional fact
279 ntitation of lipid C=C location isomers from complex mixtures using online Paterno-Buchi reaction cou
280 ntroduction of the chloride anion results in complex mixtures via ligand and chloride exchange, demon
281  low-abundance peptides spiked into a highly complex mixture was also compared with that obtained usi
282                Evaluation for application to complex mixtures was achieved using the NIST Standard Re
283 icability of this method for the analysis of complex mixtures was demonstrated in red wine where the
284 trometry can improve the characterization of complex mixtures where components cannot be resolved by
285 s behavior could be readily extended to more complex mixtures while maintaining nonlinearity.
286 d annotation of S-sulfonated peptides across complex mixtures while providing sufficient sequence inf
287 he enzymatic remodelling of carbohydrates in complex mixtures whose compositions affect both the proc
288  fg/ml not only in pure solution but also in complex mixture with as high as 1000 ng/ml NSTs.
289                              Separation of a complex mixture with CE was done with considerably bette
290 lumping approach can be used to simplify any complex mixture with tens, hundreds, or thousands of con
291 otopic resolution and can be used to analyze complex mixtures with increased dynamic range and higher
292 istributions can be studied noninvasively in complex mixtures with NMR.
293 wed the ability to enrich glycopeptides from complex mixtures with subsequent MALDI analysis, and the
294 r release into environmental systems creates complex mixtures with unknown toxicological outcomes.
295 g capacity to resolve individual odorants in complex mixtures, with implications for how the nervous
296 tion of several nitroaromatic compounds in a complex mixture without prior sample preparation is demo
297 R) can reveal the chemical constituents of a complex mixture without resorting to chemical modificati
298 t overcome these steps by direct analysis of complex mixtures without extraction and separation.
299 ll MS/MS map for fragments and precursors of complex mixtures without hyphenation with chromatographi
300 R MS) enables the direct characterization of complex mixtures without prior fractionation.

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