ライフサイエンスコーパス: fingerprinting

1 y of patients were subjected to peptide mass fingerprinting.

2 ted spots were characterised by peptide mass fingerprinting.

3 rray of chemical markers useful for chemical fingerprinting.

4 metamorphosis, and in toadlets via microbial fingerprinting.

5 s key to the successful application of water fingerprinting.

6 tion methods and high-throughput metabolomic fingerprinting.

7 Proteins were identified by peptide mass fingerprinting.

8 repetitive extragenic palindromic (REP)-PCR fingerprinting.

9 bowel disease were subjected to metabolomic fingerprinting.

10 exing, thereby reducing the costs of variety fingerprinting.

11 naturant gradient gel electrophoresis (DGGE) fingerprinting.

12 orks with those in humans using connectivity fingerprinting.

13 ray ionisation mass spectrometry (ESI(-)-MS) fingerprinting.

14 orks with those in humans using connectivity fingerprinting.

15 is was applied to the data for comprehensive fingerprinting.

16 feasible by fatty acid and volatile compound fingerprinting.

17 Mycobacterium avium could be matched by DNA fingerprinting.

18 identify polysaccharides by oligosaccharide fingerprinting.

19 pulsed-field gel electrophoresis (PFGE) DNA fingerprinting.

20 TS or secondary metabolite biosynthetic gene fingerprinting.

21 our descriptors associated with the volatile fingerprinting.

22 s chromatography-mass spectrometry-based oil fingerprinting.

23 ivity of ginger by performing efficacy-based fingerprinting.

24 uantification for breast imaging by using MR fingerprinting.

25 method for salivary metabolic profiling and fingerprinting.

26 and associated to the parallel IMS volatile fingerprinting.

27 of correct classification was higher for the fingerprinting (100%) than for the profiling approach (4

28 We used (13)C-fingerprinting, (13)C metabolic flux analysis ((13)C-MFA

29 tandem mass spectrometry, GC/APCI-MS/MS) for fingerprinting a crude oil and environmental samples fro

30 in the northwest (5 degrees to 9 degrees C), fingerprinting a North Atlantic origin.

31 present MaSIF (molecular surface interaction fingerprinting), a conceptual framework based on a geome

32 sitive sensing technique which relies on the fingerprinting ability to produce molecule specific dist

33 tween two laboratories on olive oil (1)H NMR fingerprinting, aiming to demonstrate the robustness of

34 ) is the preferred instrumental platform for fingerprinting, although its power in analysis of free f

35 To study fingerprinting analysis of anthocyanins, acai samples we

36 Surprisingly, the fingerprinting analysis showed that agricultural land ac

37 t robust model over time: i) an non-targeted fingerprinting analysis, in which the overall GC-IMS dat

38 Fingerprinting ancient gold work requires the use of non

39 ession analysis was used to evaluate both MR fingerprinting and ADC in differentiating NTZ, cancers a

40 ntralateral visually normal TZs (NTZs) on MR fingerprinting and ADC maps.

41 hts into the mechanisms underlying elemental fingerprinting and allow prediction of which wine-growin

42 In this paper, we use collagen mass fingerprinting and ancient DNA analysis of some of the f

43 This study reports the (poly)phenolic fingerprinting and chemometric discrimination of leaves

44 gas chromatography-mass spectrometry (GC/MS) fingerprinting and chemometrics were employed successful

45 xidizable compounds as well as for the rapid fingerprinting and classification of white wines from di

46 hod of NMR parameters is presented, enabling fingerprinting and identification of such phases.

47 were investigated by HS-SPME-GC-MS to define fingerprinting and identify chemical markers and/or indi

48 alysis based on enzymatic mass spectrometric fingerprinting and in silico simulations.

49 ombined X-ray absorption spectroscopic (XAS) fingerprinting and in vivo mouse relative bioavailabilit

50 requency analysis can enable the independent fingerprinting and label-free separation of intact micro

51 logy to astrophysics and including molecular fingerprinting and light detection and ranging (LIDAR) s

52 spectra, allowing this method to be used for fingerprinting and linear combination analysis of known

53 Chemical fingerprinting and mass profiling methods to identify bi

54 We have developed LC/MS based fingerprinting and mass profiling methods to identify fa

55 recombinant proteins utilizing peptide mass fingerprinting and MS/MS analysis.

56 igh resolution mass spectrometry (DART-HRMS) fingerprinting and multivariate regression analysis in p

57 MALDI-TOF enzymatic fingerprinting and NMR experiments revealed that both pr

58 We employed bacterial fingerprinting and pyrosequencing for microbiome analysi

59 monstrated high performance of the metabolic fingerprinting and revealed the presence of metabolites

60 rn recognition tools (i.e. template matching fingerprinting and scripting) providing highly informati

61 Modern molecular tools for fingerprinting and sequencing allow for pathogen identif

62 abitats, and used a combination of community fingerprinting and sequencing of marker genes to identif

63 the first study of its kind in India to use fingerprinting and transport modeling techniques for sou

64 Then by peptide mass fingerprinting and x-ray crystallography, we demonstrate

65 nal restriction fragment length polymorphism fingerprinting, and cloning and sequencing of full-lengt

66 ent length polymorphism analysis (RFLP), PCR fingerprinting, and multilocus sequence typing (MLST).

67 d for mass spectrometry, peptide ion mapping/fingerprinting, and protein identification through datab

68 tudy describes the development of a rapid MR fingerprinting- and diffusion-based examination for quan

69 In this study, we evaluated an MRI fingerprinting approach (MRvF) designed to provide high-

70 We introduce a kinetic fingerprinting approach called single-molecule recogniti

71 Here, we introduce an ultrafast vibrational fingerprinting approach for probing the structure and in

72 We propose a single-cell-level biochemical fingerprinting approach named "ramanome", which is the c

73 designed for developing a nontargeted global fingerprinting approach of lung tissue, for the first ti

74 Also, this first-of-a-kind efficacy-based fingerprinting approach proposed here can identify poten

75 As a result, the presented fingerprinting approach provided predictive modeling of

76 We then used an ex vivo metabolite-fingerprinting approach to investigate these proteins in

77 A nontargeted fingerprinting approach was applied to a pooled sample o

78 we present an artificial-nose inspired SERS fingerprinting approach where spectral data is obtained

79 cement (PROFILE), a 1D (1)H NMR spectroscopy fingerprinting approach, is superior to traditional two-

80 on puree has been investigated using a GC-MS fingerprinting approach.

81 s makes it possible to apply 2D NMR spectral fingerprinting approaches directly to drug products in o

82 infrared (FT-IR) spectroscopy, as metabolic fingerprinting approaches, with SIP to demonstrate the q

83 ination efficiency of targeted profiling and fingerprinting approaches.

84 nsic investigators have universally accepted fingerprinting as a reliable identification method via p

85 nsic investigators have universally accepted fingerprinting as a reliable identification method, whic

86 ray powder diffraction (XRPD), and molecular fingerprinting as dry powders by ATR-FTIR spectroscopy a

87 EVOO geographical markers and establish the fingerprinting as the most efficient approach for the tr

88 o pooled urine assay, (3) in vivo wastewater fingerprinting assay, (4) analysis with HR-MSMS, (5) dat

89 e approaches, including a robust RNA-protein fingerprinting assay, to map the ssRNA binding sites of

90 ia combined human metabolism and urban water fingerprinting assay.

91 hich are regulated by law, and (ii) targeted fingerprinting based on 140 OHCs reported in citrus esse

92 Methods Two-dimensional section-selective MR fingerprinting based on a steady-state free precession s

93 rug Profile Matching (DPM), a novel affinity fingerprinting-based in silico drug repositioning approa

94 groundPreliminary studies have shown that MR fingerprinting-based relaxometry combined with apparent

95 ferentiating category 3 lesions.ConclusionMR fingerprinting-based relaxometry combined with apparent

96 nation consisting of magnetic resonance (MR) fingerprinting-based T1, T2, and standard apparent diffu

97 and nuclear magnetic resonance spectroscopy fingerprinting, both gold standard HOS techniques, were

98 We apply HISAT2 for HLA typing and DNA fingerprinting; both applications form part of the HISAT

99 gy by mass spectrometry (ZooMS) peptide mass fingerprinting but extracts protein from the parchment s

100 merging as a powerful technique in olive oil fingerprinting, but its analytical robustness has to be

101 nstrated the possibilities for glycosylation fingerprinting by comparing different Erythropoietin sou

102 ology for quantitative analysis and isotopic fingerprinting by laser ablation inductively coupled pla

103 Volatile fraction fingerprinting by solid-phase microextraction with direc

104 d NSE with the additional ability to perform fingerprinting by the selective determination of ProGRP

105 Herein, we show that fluorescence spectral fingerprinting can be used to identify the likely presen

106 We showed that fingerprinting can robustly distinguish between healthy

107 dvantage of fast label-free imaging with the fingerprinting capability of Raman spectroscopy and enab

108 Supplementary analyses were done using DNA fingerprinting, cloning, and sequencing.

109 unknown.PurposeTo evaluate the utility of MR fingerprinting combined with ADC mapping for characteriz

110 Therefore, multi-element fingerprinting combined with the use of multivariate sta

111 eparation modules were applied to acquire MR fingerprinting data for each partition of a three-dimens

112 Using n-alkane fingerprinting data, both linear discriminant analysis (

113 ogeneous RF fields into a magnetic resonance fingerprinting data-acquisition process.

114 es and enhancing the information embodied in fingerprinting data.

115 dy, a new Dual Contrast - Magnetic Resonance Fingerprinting (DC - MRF) methodology is described that

116 rein, the Dual Contrast - Magnetic Resonance Fingerprinting (DC-MRF) methodology was extended for in

117 Bayesian modeling based on fingerprinting elements suggested that tides played a ma

118 ygen isotope ratios and Bayesian modeling on fingerprinting elements were applied as two novel method

119 In this study, metabolomic fingerprinting employing instrumental platform consistin

120 Fingerprinting enabled selection of Strecker aldehydes,

121 Fingerprinting enabled selection of terpenoids, phenylpr

122 Fingerprinting enabled selection of volatiles clearly ch

123 tic polymers make this approach suitable for fingerprinting, even when the samples contain mixtures o

124 MALDI-TOF-MS peptide mass fingerprinting following trypsin digestion indicated CpL

125 efore highlight the potential of metabolomic fingerprinting for organic food authentication purposes.

126 rked B0 and B1 field inhomogeneities, the MR fingerprinting framework was extended by using a two-dim

127 classified and, therefore, methodologies for fingerprinting fuel and other device components can be v

128 g with their corresponding receptors and for fingerprinting functional protein domains in living cell

129 The multi-element fingerprinting has a great potential for the differentia

130 ination of the origin of coffee beans by NMR fingerprinting has been shown promising and classificati

131 e we demonstrate the huge potential collagen fingerprinting has for identifying hominin remains in hi

132 However, radiocarbon fingerprinting here clearly indicates that light-absorbi

133 R) is arguably the most sensitive method for fingerprinting HOS of a protein in solution.

134 ehensive integration of MS-based metabolomic fingerprinting (HS-SPME-GC-MS) and chemometric tools has

135 Amplification is followed by HRM sequence fingerprinting in all reactions, simultaneously.

136 copic equipment for oil spill monitoring and fingerprinting in aqueous systems has to date been mainl

137 imaging with steady-state free precession MR fingerprinting in brain tissues of healthy volunteers.

138 of fatty acid and volatile organic compound fingerprinting in combination with chemometrics have bee

139 ada, were analysed using untargeted (1)H NMR fingerprinting in combination with chemometrics in order

140 the feasibility of APCI-MS volatile compound fingerprinting in conjunction with chemometrics (PLS-DA)

141 The feasibility of elemental fingerprinting in the classification of wines according

142 dvantages, enabling label-free, biomolecular fingerprinting in the native state.

143 imaging with steady-state free precession MR fingerprinting in vivo in human brains.

144 to illustrate the usefulness of ethoxylate "fingerprinting", in a first application to monitor water

145 Metabolic fingerprinting is a powerful analytical technique, givin

146 Therefore, our study confirms that water fingerprinting is a promising tool for biomarker selecti

147 both parent and combusted material, and such fingerprinting is also practical for detecting them in o

148 MR Fingerprinting is an innovative acquisition technique th

149 Metabolic fingerprinting is an untargeted approach which has not y

150 sample preparation before LC-MS metabolomic fingerprinting is one of the most challenging and error-

151 ofiling by isotope dilution and non-targeted fingerprinting is proposed for cancer cell studies.

152 Hence, a high-throughput method for their fingerprinting is required.

153 ure (HPHT) sterilised carrot purees using a 'fingerprinting kinetics' approach.

154 egrated analytical and engineering toolbox: "fingerprinting-kinetics" was used.

155 se approaches problematic for the purpose of fingerprinting large biological macromolecules.

156 s a novel, effective, and simple approach to fingerprinting liquids.

157 fingerprint (MALDI-TOF) and peptide fragment fingerprinting (MALDI LIFT-TOF/TOF) spectra of fifteen b

158 batch reaction time course in a qualitative "fingerprinting" manner as well as in quantitative detail

159 NN) were applied to the four chromatographic-fingerprinting matrices.

160 Therefore, drug interaction fingerprinting may be harnessed to differentiate drug id

161 eral frontal cortex (LFC) with primates, the fingerprinting method also afforded the unique ability t

162 s from 1973-2012 over China using an optimal fingerprinting method by comparing the homogenized radio

163 Our repertoire fingerprinting method for distinguishing immune repertoi

164 ology and performance of the novel molecular fingerprinting method is presented and the new chemicall

165 we describe an enzymatic/mass spectrometric fingerprinting method to analyze the FA of chitosan poly

166 An enzymatic fingerprinting method using endo-beta-mannanase, in addi

167 Then, an UHPLC-QTOF metabolic fingerprinting method was developed to investigate plant

168 the k-core decomposition, a standard network fingerprinting method.

169 This biological fingerprinting methodology is sensitive, fast, cost-effe

170 e chemistry of interfering reactions for the fingerprinting methods and conclude that for accurate co

171 ds, protein, and carbohydrates): three rapid fingerprinting methods and three advanced chromatography

172 articulate P and the fidelity of isotope and fingerprinting methods in source tracking of P in tidall

173 Multivariate analysis based on both fingerprinting methods showed significant chemical varia

174 gionen") was performed by combining chemical fingerprinting methods, namely n((86)Sr)/n((87)Sr) isoto

175 The fatty acid fingerprinting model revealed three misclassified sample

176 The volatile compound fingerprinting models showed an 88%, 100% and 100% accur

177 MALDI-TOF mass spectrometry, tryptic peptide fingerprinting, molecular characterization and pepsin di

178 Magnetic resonance fingerprinting (MRF) is a rapidly developing fast quanti

179 alization--which we term 'magnetic resonance fingerprinting' (MRF)--that permits the simultaneous non

180 Neutralization fingerprinting (NFP) is an efficient and accurate algori

181 Fingerprinting of 16 isolates by repetitive sequence-bas

182 Molecular fingerprinting of 2348 Mycobacterium tuberculosis isolat

183 ve rapid technique that generates a chemical fingerprinting of a sample, at low operating costs.

184 was constructed by high-information content fingerprinting of almost 600,000 bacterial artificial ch

185 laboratory study, we employed stable isotope fingerprinting of amino acids to identify the biosynthet

186 g utilization of polyphosphates through HRMS fingerprinting of anionic species that would be specific

187 tograms, this new method for the qualitative fingerprinting of AXOS breakdown can also be applied for

188 the evolution of volatiles through headspace fingerprinting of beans cooked at 95 degrees C to differ

189 Metabolic fingerprinting of biological tissues has become an impor

190 Molecular fingerprinting of clinical isolates identified 2 clonal

191 fers a new path for ultrasensitive molecular fingerprinting of complex mixtures of biomolecules or or

192 etermine expression level changes, molecular fingerprinting of cornu ammonis 1 (CA1) pyramidal neuron

193 g these analyses with (i) inorganic chemical fingerprinting of deep saline groundwater, (ii) characte

194 Simultaneous metabolic fingerprinting of deuterium-labeled saturated and unsatu

195 Fingerprinting of donor L1s revealed that a handful of s

196 hus demonstrate the potential of such direct fingerprinting of dried biofluid spots as a viable alter

197 is novel instrumental approach enabled rapid fingerprinting of examined samples and detection of nume

198 the diagnosis of diseases and for molecular fingerprinting of exhaled breath.

199 on among very similar analytes and exquisite fingerprinting of extremely similar mixtures over a wide

200 n among very similar analytes, and exquisite fingerprinting of extremely similar mixtures over a wide

201 Quantitative (14)C-based fingerprinting of fluvial organic carbon thus provides a

202 y presents a new method for exhaustive lipid fingerprinting of human blood plasma samples based on th

203 TR(3) permits fingerprinting of intermediates by their unique vibratio

204 spectrometry (LDI-MS) for the rapid chemical fingerprinting of lichen extracts.

205 elapse and reinfection, distinguished by DNA fingerprinting of Mycobacterium tuberculosis strains rec

206 onstrated to be a valuable tool for chemical fingerprinting of naphthenic acids.

207 tection power of ICPMS and enables elemental fingerprinting of objects which cannot be transferred to

208 ly serve as a general approach for metabolic fingerprinting of other metabolites.

209 A method allowing parallel fingerprinting of proteins and maltooligosaccharides dir

210 e-of-flight mass spectrometry (MALDI-TOF MS) fingerprinting of proteins was developed.

211 This study reports the (1)H NMR fingerprinting of raw and roasted hazelnut, with the aim

212 Fingerprinting of relapse isolates from 31 treated patie

213 ed variable-number tandem repeats (VNTR) for fingerprinting of respiratory isolates of M. intracellul

214 ry (HR-ICP-MS) methodology for multi-element fingerprinting of rice has been carried out.

215 rometry (LA-REIMS) was established for rapid fingerprinting of saliva, thereby using a Nd:YAG laser a

216 We therefore used chemical fingerprinting of skin swabs and genetic analysis to exp

217 LA-ICPMS) is a powerful method for elemental fingerprinting of solid samples in a quasi-nondestructiv

218 Comparison of the headspace GC-MS fingerprinting of the differently processed broccoli pur

219 d future studies on the fate, transport, and fingerprinting of the Macondo well oil released from the

220 The analytical procedure for chromatographic fingerprinting of the methyl-transesterified fraction of

221 The fingerprinting of the oil spill is based on a trace anal

222 nal restriction fragment length polymorphism fingerprinting of the protein-encoding cytochrome c oxid

223 t dual-isotope-based (Delta(14)C/delta(13)C) fingerprinting of wintertime BC at two receptor sites of

224 as a high throughput-screening platform for fingerprinting of wood chemotype.

225 Enzymatic fingerprinting of xylan showed the specific absence in t

226 This method of 'functional fingerprinting' of plant extracts represents a novel too

227 Chromatographic fingerprinting on composite 2D chromatograms from sample

228 w that combines Untargeted and Targeted (UT) fingerprinting on comprehensive two-dimensional gas-chro

229 r-tweezers-based, single-molecule structural fingerprinting on the six inter-handle distances reveals

230 Kinetic and thermodynamic fingerprinting on the six trajectories defined by each h

231 Protein stable isotope fingerprinting (P-SIF) is a method to measure the carbon

232 The fingerprinting performance was evaluated based on the co

233 tegrate this technique into current forensic fingerprinting practice.

234 overall microbial profiles, showed distinct fingerprinting profiles for each group.

235 Urban water fingerprinting provides a timely alternative to traditio

236 Metabolic fingerprinting provides valuable information on the phys

237 e use of X-ray diffraction analysis for food fingerprinting purposes.

238 The MALDI-TOF/MS followed by peptide mass fingerprinting revealed homology with a predicted protei

239 In particular, fingerprinting revealed that C6 and F98 glioma models ha

240 Simple sequence repeat (SSR) fingerprinting revealed that increased frequencies of VC

241 tative smoky and non-smoky samples; advanced fingerprinting revealed the chemicals responsible for th

242 ficially analyze this phenomenon by standard fingerprinting (RFLP and VNTR).

243 In conclusion, MR vascular fingerprinting seems to be an efficient technique to stu

244 For the 9 L glioma model, fingerprinting showed blood oxygenation measurements tha

245 The new method for fingerprinting showed to be a powerful and fast tool to

246 Optimal fingerprinting shows that anthropogenic climate change i

247 A fingerprinting strategy based on genetic (simple sequenc

248 the future use of ultradeep sequencing as a fingerprinting strategy for locating and identifying mod

249 Here, we present a label-free molecular fingerprinting strategy on a plasmonic sensor to detect

250 rometry is a promising technique for rapidly fingerprinting structural and dynamical properties of pr

251 Mechanical fingerprinting studies of a series of C-terminally trunc

252 lications of adduct-mediated effects for CIU fingerprinting studies.

253 s a methanol precipitation typically used in fingerprinting studies.

254 se of SPIONs provides a major advancement in fingerprinting subcellular compartments, with an increas

255 this constraint, which resulted in chemical fingerprinting systems capable of recognizing unknown mi

256 rst standardised a capillary electrophoresis fingerprinting technique for PSP identification and char

257 Here, an electrochemical fingerprinting technique is described, which suggests th

258 is a powerful technique and can be used as a fingerprinting technique to compare various samples.

259 y (FT-MIR) was used in the present work as a fingerprinting technique to detect the presence of three

260 developed for breast imaging by using the MR fingerprinting technique, which allows simultaneous and

261 prehensive integration of MS-based metabolic fingerprinting techniques, advanced data preprocessing a

262 e, we highlight the considerable advances in fingerprinting technology that can simultaneously provid

263 This study highlights the importance of fingerprinting the effects of detected chemicals.

264 ron-loss near-edge structure (ELNES) enabled fingerprinting the local chemical environment around the

265 For fingerprinting the oil spill, we constructed diagrams an

266 ogeochemical studies that aim at molecularly fingerprinting the source of natural DOM could be satisf

267 ceded by magnetoresistance (MR) oscillations fingerprinting the underlying regular vortex structure.

268 Compared with chromatographic fingerprinting, the bioassay provided better discriminat

269 y (SERS) can interrogate systems by directly fingerprinting their components' unique physicochemical

270 DNA fingerprinting through tubulin-based polymorphism (TBP)

271 This kinetic fingerprinting thus exhibits great potential for the ult

272 tatic prostate cancer, we used phage display fingerprinting to analyze sequentially acquired serum sa

273 The role of oncogenic viruses and genetic fingerprinting to determine the origin of TCCtu are desc

274 se results showed the relevance of cheese MS fingerprinting to generate new findings and to detect ev

275 vestigate the sediment sources with sediment fingerprinting to generate the knowledge base to improve

276 based on UHPLC-TOF-MS profiling and (1)H NMR fingerprinting to highlight metabolite differences on a

277 ability of mass spectrometry (MS) metabolic fingerprinting to investigate modifications induced by b

278 dy of sufficient size and duration using DNA fingerprinting to investigate tuberculosis relapse and r

279 problem we have applied a method of collagen fingerprinting to more than 2000 fragmented bones from t

280 oteome of orange pulp and peel and, via this fingerprinting, to detect its presence in commercial ora

281 k for developing a quantitative, geochemical fingerprinting tool to distinguish sources of high salin

282 method was first developed and validated by fingerprinting two test fluids, rat serum and RPMI cell

283 high-affinity antibody combined with kinetic fingerprinting using a dynamically binding, low-affinity

284 ing 2D-gel electrophoresis, and peptide mass fingerprinting using matrix-assisted laser desorption/io

285 of saffron authentication based on metabolic fingerprinting was developed.

286 The potential of headspace GC-MS fingerprinting was explored as a tool to compare the imp

287 Untargeted metabolite fingerprinting was performed by UPLC-QToF MS with multiv

288 In this study, non-targeted (1)H NMR fingerprinting was used in combination with multivariate

289 Amplification of Polymorphic DNA (RAPD)-PCR fingerprinting was used to group the genotypes.

290 Method suitability for untargeted fingerprinting was verified, demonstrating adequate line

291 Fingerprinting water impacted by gas-drilling operations

292 cert with mutagenesis and NMR chemical shift fingerprinting, we show that the transactivation respons

293 (PCA) and refer to our method as "repertoire fingerprinting." We reduce the high dimensional space of

294 MS), and NIR, FT-IR, and Raman spectroscopic fingerprinting were analyzed.

295 ity wines can be used as a reliable tool for fingerprinting wine geographic provenance.

296 maging with steady-state precession-based MR fingerprinting with ADC mapping.

297 Comparing fingerprinting with and without internal standard proved

298 DC mapping (b values, 50-1400 sec/mm(2)), MR fingerprinting with steady-state free precession, and ta

299 ing the novel proposed method for structural fingerprinting with the template map of olfactory networ

300 rap HRMS to develop and validate a metabolic fingerprinting workflow for human feces and in vitro dig