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1 tomical factors and forms an individual "EEG fingerprint".
2 rojections on model-specific climate change "fingerprints".
3 xture, herein referred to as the 'functional fingerprint'.
4 constituent variables, is their distinctive fingerprint.
5 ibutes of a person of interest solely from a fingerprint.
6 sional chromatogram to be used as a chemical fingerprint.
7 o the volatile profile of the headspace as a fingerprint.
8 nic causes of CVID might lack such a genetic fingerprint.
9 ataset to generate a HDXMS protein stability fingerprint.
10 nanoparticles based on their increased Raman fingerprints.
11 widespread dispersal and unique geochemical fingerprints.
12 gender and ethnicity information from those fingerprints.
13 percentages based on spectroscopic chemical fingerprints.
14 entiate between female fingerprints and male fingerprints.
15 geted molecules from their vibrational Raman fingerprints.
16 trace exogenous chemicals can be detected in fingerprints.
17 sed to differentiate between male and female fingerprints.
18 l and the concept of determining gender from fingerprints.
19 ructure evolution and serves as its infrared fingerprints.
20 e identified based on their drug interaction fingerprints.
21 ould show some correlation with fluorescence fingerprints.
22 und these components had distinct functional fingerprints.
23 ted spots were characterised by peptide mass fingerprinting.
24 rray of chemical markers useful for chemical fingerprinting.
25 metamorphosis, and in toadlets via microbial fingerprinting.
26 s key to the successful application of water fingerprinting.
27 Proteins were identified by peptide mass fingerprinting.
29 MS) was utilized to obtain the mass-resolved fingerprints (76 masses per sample) of volatile organic
30 tandem mass spectrometry, GC/APCI-MS/MS) for fingerprinting a crude oil and environmental samples fro
31 ntitative analyses demonstrated different EO fingerprints among the studied samples: cultivated and w
32 The gel-electrophoresis and peptide mass fingerprint analyses revealed a de novo set of peptides/
37 tophan) makes it a viable chemical assay for fingerprint analysis in order to identify the biological
38 line pipes compared to water contamination "fingerprint" analysis of trace elements, revealed that t
39 d with multivariate statistical modeling, we fingerprint and quantify the abundance of authigenic cla
40 chip proteolytic digestion, the peptide mass fingerprint and/or tandem mass spectrometry of selected
42 spectra, allowing this method to be used for fingerprinting and linear combination analysis of known
43 rn recognition tools (i.e. template matching fingerprinting and scripting) providing highly informati
44 abitats, and used a combination of community fingerprinting and sequencing of marker genes to identif
45 nergistically combines extended connectivity fingerprints and a neighbor-joining algorithm to produce
46 arget binding predictions inaccessible by 2D fingerprints and confirm three of them experimentally wi
47 eir derived products through chromatographic fingerprints and for untargeted metabolomic investigatio
49 traction of all the peaks from the metabolic fingerprints and their associated mass spectra, a mathem
50 4 y of the spill, we develop a Macondo oil "fingerprint" and conservatively identify a subset of 312
53 nal restriction fragment length polymorphism fingerprinting, and cloning and sequencing of full-lengt
54 tudy describes the development of a rapid MR fingerprinting- and diffusion-based examination for quan
55 trogen receptor agonists elicit a behavioral fingerprint anti-correlative to that of cntnap2 mutants
58 s makes it possible to apply 2D NMR spectral fingerprinting approaches directly to drug products in o
60 redicts fusion transcripts based on the gene fingerprint (as k-mers) profiles of the RNA-Seq paired-e
63 o pooled urine assay, (3) in vivo wastewater fingerprinting assay, (4) analysis with HR-MSMS, (5) dat
65 hich are regulated by law, and (ii) targeted fingerprinting based on 140 OHCs reported in citrus esse
66 nation consisting of magnetic resonance (MR) fingerprinting-based T1, T2, and standard apparent diffu
67 and nuclear magnetic resonance spectroscopy fingerprinting, both gold standard HOS techniques, were
68 merging as a powerful technique in olive oil fingerprinting, but its analytical robustness has to be
71 demonstrated that the amino acid content in fingerprints can be used to differentiate between male a
75 dsorption energies based on group additivity fingerprints, combined with transition-state scaling rel
77 file of pear juices in combination with pear fingerprint compounds including arbutin could be used to
80 istinguished by means of different metabolic fingerprints correlated to the country of origin on a gl
83 dy, a new Dual Contrast - Magnetic Resonance Fingerprinting (DC - MRF) methodology is described that
84 ntrary to what has been reported, no obvious fingerprint degradation or lipid diffusion is observed w
85 pproximately one thousand times smaller than fingerprints derived from diffusivity-based measures or
86 ots will create a new avenue for research in fingerprint detection and anticounterfeiting technology.
88 Each mobility selected form has a different "fingerprint" dissociation spectrum, both predominantly c
89 ed by K48-linked diUbq results in unique CIU fingerprints dominated by conformational broadening and
91 apply the logic of the extended connectivity fingerprint (ECFP) to develop a rapid, alignment-invaria
92 btained trajectories, we generated molecular fingerprints exemplifying propensities of protein-ligand
95 al etching, we also can image the structural fingerprint for ferroelectricity, polar domains, periodi
96 s work has uncovered a distinctive molecular fingerprint for scarring trachoma fibroblasts, and ident
97 laginella rhizophores provides an anatomical fingerprint for the patterns of auxin flow that underpin
98 o HPLC were applied to construct a metabolic fingerprint for Turmeric in an attempt to assess its qua
99 efore highlight the potential of metabolomic fingerprinting for organic food authentication purposes.
101 icability of the obtained mass spectrometric fingerprints for food authentication was evaluated using
102 essential microbial glycolipids as chemical fingerprints for identification of individual bacterial
103 edge, we identified key spectral features as fingerprints for quantitative assessment of structural e
108 e sample data was applied to overlaid latent fingerprints from different individuals, giving accurate
110 e in the characterization of acute metabolic fingerprints from meal consumption and in the identifica
111 are characterized by a respiratory metabolic fingerprint fully different from that of patients indepe
113 r strains of LAB can be distinguished by the fingerprints generated by the volatile organic compounds
114 e we demonstrate the huge potential collagen fingerprinting has for identifying hominin remains in hi
119 ystematic analysis of PDE-ligand interaction fingerprints (IFPs), the identification of subtype-speci
122 gesting the presence of MSCs with a fibrotic fingerprint in papillary thyroid cancer tumors and the a
123 lts strongly suggest that the climate change fingerprint in studied avian distributions is multidirec
126 ada, were analysed using untargeted (1)H NMR fingerprinting in combination with chemometrics in order
129 tantly, thorough identification of microbial fingerprints in drinking water biofilms is achievable wi
130 concentrations produces specific biochemical fingerprints in organisms, metabolomic perturbations in
131 developed a technique to simulate enzymatic fingerprints in silico that were used to build the PLS m
132 rein we investigated the biochemical tissue 'fingerprint' in spawn and early-stage tadpoles of the Co
133 ucleic acids, DNA and RNA, provide important fingerprint information for various pathogens and have s
135 e water-soluble, and their (19)F-NMR analyte fingerprint is pH-robust, thereby making them particular
136 Therefore, our study confirms that water fingerprinting is a promising tool for biomarker selecti
137 ofiling by isotope dilution and non-targeted fingerprinting is proposed for cancer cell studies.
140 ron-dense vesicles, lipofuscin accumulation, fingerprint-like profiles and granular osmiophilic depos
141 nephrin-like protein 1, colocalize within a fingerprint-like staining pattern that correlates with u
142 aces consists of cyanoacrylate fuming of the fingerprint material, followed by impregnation with a fl
146 we describe an enzymatic/mass spectrometric fingerprinting method to analyze the FA of chitosan poly
151 desmethylsterols derivatives chromatographic fingerprints (obtained from an off-line HPLC-GC-FID syst
152 ta and (1)H nuclear magnetic resonance (NMR) fingerprints, obtained on mono-cultivar olive oils of fo
153 r the first time the possibility to obtain a fingerprint of a broad distributed statistical copolymer
154 onstructed genome-wide target profile as the fingerprint of a chemical compound, we predicted that se
156 ethod was developed for a fast analysis of a fingerprint of bioactive compounds present in cocoa bean
157 im of this study is to extract a unique mRNA fingerprint of breast cancer in Lebanese women using mic
158 /correlation and we identify a spectroscopic fingerprint of bulk metallic character and ferromagnetis
163 ging microscopy (FLIM) to create a metabolic fingerprint of individual bacteria and populations.
165 r thousand; mean +/- 1 SD, n = 7) provides a fingerprint of inorganic Hg (IHg) that could be methylat
166 ed to generate a basin-wide ecophysiological fingerprint of Lake Erie Microcystis populations in Augu
167 lize on the unique chemical and histological fingerprint of MB in birds to characterize, at the molec
168 ate vibrational excitations are an important fingerprint of molecule/surface interactions, affecting
172 ted by an optical mask containing either the fingerprint of the person who is sending, or receiving t
173 In particular, due to the specific chemical fingerprint of the Raman spectrum, it was possible to di
174 cating that these cells retain an epigenetic fingerprint of their effector history and remain poised
177 ing the elucidation of the vibrational Raman fingerprint of through-space charge delocalization.
179 laboratory study, we employed stable isotope fingerprinting of amino acids to identify the biosynthet
183 The analytical procedure for chromatographic fingerprinting of the methyl-transesterified fraction of
189 ta on the elemental compositions and mineral fingerprints of both Bacteria and Archaea, using these d
190 ere not consistent with the expected isotope fingerprints of CCRs, but rather mimic the compositions
192 emonstrate that a variation in the metabolic fingerprints of Espeletia lineages followed the biogeogr
193 esent an approach to directly image distinct fingerprints of essential organic reactions and monitor
194 al times, and collision-induced dissociation fingerprints of HMO anions released from the target prot
196 r test to categorize and compare the dynamic fingerprints of particular competitive asymmetries (freq
200 ty and the magnitude of the noise reveal key fingerprints of several important climate phenomena, inc
207 hydrogen isotope ratios of NDMA function as fingerprints of the N(CH3)2 moiety and exhibit only mino
208 ence (FLD) detection was used to acquire the fingerprints of the phenolic fraction of monovarietal ex
209 The first was to construct discriminative fingerprints of the rice varieties using 3105 SSRs, whic
210 method can obtain comprehensive and reliable fingerprints of the structural connectivity underlying t
219 cent dual-readout abilities to detect latent fingerprints on both porous and nonporous surfaces.
223 ing the reaction leading to a characteristic fingerprint pattern of changes in reaction rate and enan
224 o able to establish a structural interaction fingerprint pattern or profile of circulating autoantibo
228 tely differentiating between male and female fingerprints, regardless of their respective average con
229 ixing dynamics of toluene and benzene in the fingerprint region (200-1500 cm(-1)) with spectral resol
230 ied spectral features of the tyrosine in the fingerprint region of the time-resolved infrared absorpt
231 rge enough to cover most of the mid-Infrared fingerprint region with a single plasmon excitation.
232 In this work, 500-2000cm(-1) spectral range (fingerprint region) was determined to perform PCA and HC
233 y specific images over the full vibrational 'fingerprint' region, suitable for a large field of view.
234 were observed in the amide-I, amide-III, and fingerprint regions, indicating that secondary structure
235 ovement sleep, a highly heritable trait with fingerprint reproducibility, is correlated with the gene
236 to identify suspicious chemicals present in fingerprint residues, which requires chemical imaging ca
237 ates of NMR, their multidimensional spectral fingerprints result from creating quantum mechanical mix
241 y eggs can be determined from their chemical fingerprint signatures acquired by direct analysis in re
242 -chemical interaction and its structural and fingerprint similarities to other compounds belonging to
243 al ingredients by comparing drug interaction fingerprint similarity metrics such as correlation and E
245 al variation among systematic sets of 2D NMR fingerprint spectra using the NISTmAb and illustrate how
246 ng external magnetic field and produce Raman fingerprint spectrum with trace level of target molecule
248 the future use of ultradeep sequencing as a fingerprinting strategy for locating and identifying mod
250 se of SPIONs provides a major advancement in fingerprinting subcellular compartments, with an increas
251 is a powerful technique and can be used as a fingerprinting technique to compare various samples.
252 er architecture as a single local connectome fingerprint that allows for a direct comparison between
253 l bands to calculate a highly characteristic fingerprint that contains all vibrational band area rati
254 or unique quality of a sound, is a spectral fingerprint that helps us instantly identify and classif
255 isplay an increase in the projection of this fingerprint that is mirrored in multiple observational s
256 ic (87)Sr/(86)Sr (0.7070 to 0.7120) isotopic fingerprints that are characteristic of coal ash at all
257 easily manageable databases of standardized fingerprints that can be easily exchanged between labora
258 ast chemical exposures often leave molecular fingerprints that may be able to provide information on
259 high-pressure phase has unique spectroscopic fingerprints that should allow for straightforward detec
260 identified mGlu2-4 specific pharmacological fingerprints that were also observed in a neuronal cell
261 rowding for a day resulted in neural MS-AFLP fingerprints that were clearly distinct from both crowd-
262 maternal meiotic errors and karyomapping to fingerprint the parental chromosomes in single cells fro
265 ogeochemical studies that aim at molecularly fingerprinting the source of natural DOM could be satisf
268 We calculated Target Interaction Profile Fingerprints (TIPFs) based on ChEMBL database to evaluat
269 e predictive power of the wild-type dynamics fingerprint to identify key residues in dynamics-driven
270 light-based method that provides a molecular fingerprint to non-invasively investigate normal and imp
271 The role of oncogenic viruses and genetic fingerprinting to determine the origin of TCCtu are desc
272 problem we have applied a method of collagen fingerprinting to more than 2000 fragmented bones from t
273 try imaging (DESI-MSI) was applied to latent fingerprints to obtain not only spatial patterns but als
274 oteome of orange pulp and peel and, via this fingerprinting, to detect its presence in commercial ora
275 at cleaves chitosan polymers into oligomeric fingerprints, ultrahigh-performance liquid chromatograph
276 y distinct nonnative fast internal dynamics "fingerprints" upon Zn binding, and DNA binding is weakly
277 s based on the identification of saccharidic fingerprints using mass spectrometry following controlle
278 reas were clustered into spectral profiles ("fingerprints"), using k-means and Gaussian mixture (GM)
285 h similar lipid compositions as those of the fingerprints were collected by swiping a glass slide acr
286 with distinct multielemental stable isotope fingerprints were differentiated, most probably as a res
289 nolic peak areas and HPLC-UV chromatographic fingerprints were then analyzed by exploratory principal
290 to an intentional dispersity (1st dimension fingerprint), which is measured by electrospray mass spe
291 d on the processing of the complete spectral fingerprint, while the second consisted of the selection
293 Importantly, comparison of the alkylation fingerprint with that generated from an artemisinin ABPP
294 ur data associate a shared TH17/IL-23 immune fingerprint with the major orphan forms of ichthyosis an
297 ing the novel proposed method for structural fingerprinting with the template map of olfactory networ
298 The results suggest that DESI-MSI imaging of fingerprints with GDBT analysis might offer a significan
300 average: +0.03 per thousand) may be used to fingerprint Zn smelting activities, one of the largest g
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