ライフサイエンスコーパス: analytical

1 rements with 82-98% of the cases meeting the analytical acceptance criterion of 35% maximum allowed d

2 sing new technique for gas-phase analysis in analytical and atmospheric chemistry mainly due to its v

3 erimental results are well explained through analytical and atomistic modeling.

4 er 100 mutant forms of CI-2 with traditional analytical and biochemical techniques.

5 anurate was investigated by state-of-the-art analytical and computational methods.

6 dress this controversy through comprehensive analytical and numerical modeling of myosin V diffusion

7 Current analytical and numerical models used for the calculation

8 Method analytical and operational characteristics were suitable

9 Analytical and physicochemical methods, which provide in

10 However, many research activities involving analytical and quantitative work do not require a physic

11 he most common and frequently used chemical, analytical, and biochemical methods for the quantitative

12 tic brain injury, we combined computational, analytical, and experimental approaches to investigate t

13 lution method is verified with experimental, analytical, and numerical data for several cases.

14 scence (ECL) with nanotechnology sparked new analytical applications, in particular for immunoassay-b

15 ng near-ideal aptamer biosensors for various analytical applications, including medical diagnostics,

16 we realize a kind of single-cell multimodal analytical approach by combining single-cell RNA sequenc

17 The proposed analytical approach emerges as a promising tool to provi

18 This work aimed to develop a new analytical approach for screening of thiols in plants, u

19 The NDS provides an analytical approach for studying nanoparticle physicoche

20 An integrated network analytical approach identified novel mediators of ectopi

21 Therefore, we believe the multimodal analytical approach offers an access to comprehensive ch

22 In this work, we modified the analytical approach on the linoleate-based peroxyl radic

23 Notably, a meta-analytical approach that aggregated information across t

24 y is low and metadata limited, we propose an analytical approach that combines pathogen WGS data and

25 findings establish a robust experimental and analytical approach that has the potential to provide a

26 Here, we present an analytical approach that uses summary-level data from co

27 Given their importance in biology, an analytical approach to follow and understand this comple

28 echanisms, we designed a powerful regulatory analytical approach to identify the conserved regulatory

29 ts highlight the value of using a multimodal analytical approach to reveal determinants and predictor

30 A multi-analytical approach was adopted, combining non-invasive

31 hat were previously shown (using a different analytical approach) to constitute the "rich-club" of th

32 o consider the assumptions implicit in their analytical approach, align those assumptions to the comp

33 ased on mass spectrometry is a very powerful analytical approach, but it is not practical for on-site

34 We demonstrate an innovative analytical approach, combining exploratory random forest

35 clearly indicate the need for a multifaceted analytical approach, to unequivocally establish the actu

36 tegrated across the 37 datasets using a meta-analytical approach.

37 This paper identifies a gap in current analytical approaches and presents a near-real time asse

38 velopment of metagenomic-SIP experiments and analytical approaches for dealing with these data.

39 am that combines six of the most widely used analytical approaches for the identification of RNA apta

40 Single-cell RNA sequencing and analytical approaches have explored this highly conserve

41 tstrap- and IQ-Tree regular bootstrap-based) analytical approaches having the highest (86%) mean summ

42 This study sought to explore various analytical approaches in assessing total ischemic and bl

43 Of the analytical approaches proposed in the literature, some a

44 Conventional analytical approaches struggle with high-dimensional dat

45 Consequently, there is a need for analytical approaches that can identify protein conforma

46 bined traditional and deep learning-assisted analytical approaches to overcome longstanding challenge

47 acing particular emphasis on the most common analytical approaches used to extract information direct

48 Using a variety of analytical approaches, we show that M1 does not exhibit

49 nalyses demonstrated some differences across analytical approaches, with RAxML having the highest (91

50 Our analytical approximation of NTCP could help optimise rad

51 However, significant financial and analytical barriers make it infeasible to sequence the e

52 roaches to SICM realize an important tool in analytical, bioanalytical, biophysical, and materials me

53 We also find, through analytical calculation and numerical simulation, branchi

54 In the field of analytical calibration, developments regarding the estim

55 spectrometry (IM-MS), and we demonstrate the analytical capability of this approach using ultraporous

56 Facing this analytical challenge, electrochemical sensing based on m

57 these structures has presented a significant analytical challenge.

58 at the individual particle level has been an analytical challenge.

59 the lack of normal RNA-Seq data, presenting analytical challenges for discovery of somatic indels in

60 ified a number of conceptual, practical, and analytical challenges to this line of research and used

61 and complex O-GalNAc glycan structures pose analytical challenges.

62 d that the dual-analyte assays had identical analytical characteristics with the respective single-an

63 everal payloads, demands the use of advanced analytical characterization methods.

64 ated to address other identified gaps in the analytical characterization of various classes of NEPs.

65 ng (DESI-MSI) facilitates the convergence of analytical chemistry and traditional pathology, allowing

66 ous quantitative and qualitative problems in analytical chemistry.

67 a analysis approach in the field of volatile analytical chemistry.

68 e of applications in medical diagnostics and analytical chemistry.

69 gly desirable targets for pharmaceutical and analytical chemists.

70 n the ion chemistry that underpins gas-phase analytical CI methods.

71 Access to analytical code is essential for transparent and reprodu

72 mitation of field studies, where optimal pre-analytical condition cannot always be guarantee.

73 In this way, analytical conditions were identified at which molecular

74 this paper is to statistically validate the analytical curves of a chromatography method to identify

75 A matrix-matched calibration was used and analytical curves were estimated by weighted least squar

76 ric analysis of 41 lager beers by evaluating analytical data of beer compositions, palate fullness, a

77 Empirical results hinge on analytical decisions that are defensible, arbitrary and

78 onservation measures and can be sensitive to analytical decisions.

79 Here, using a combination of analytical derivations and numerical simulations, I show

80 ell level, advanced medical diagnostics, and analytical detection of biomolecules and cellular activi

81 The analytical determination of the relevant parameters defi

82 Rapid Electro-Analytical Device (READ) is a point-of-care device that

83 etection methods in microfluidic paper-based analytical devices (muPADs) has revolutionized the area

84 -selective electrodes (ISEs) are widely used analytical devices to selectively measure ionic species.

85 Here, we present analytical diffusion distribution analysis (anaDDA), a f

86 icularly given the simple workflow and short analytical duty cycle.

87 olution MS techniques is critical to ongoing analytical efforts to separate and purify exosomes and e

88 The analytical evaluation of these two widely used assays st

89 tarting from the Kubo formula, we derive the analytical expressions for the DCMC for two different di

90 While analytical extractions are normally followed by off-line

91 We identify a single analytical factor, the specification of prior enrichment

92 The analytical features provided are a linear range from 250

93 ors would derive in the calculation of other analytical figures of merit (AFOMs), such as sensitivity

94 The analytical formula-based FFD method can potentially allo

95 ed on an unexpectedly concise and insightful analytical formulation of the minimum hysteresis-free su

96 proach based on first principles provides an analytical framework for estimating molecular bioactivit

97 This quantitative analytical framework has identified potentially novel me

98 An analytical framework is proposed for permit development

99 and predictability of African fire using the analytical framework of Stepwise Generalized Equilibrium

100 ell, Carrot-Zhang et al., through a rigorous analytical framework, explore ancestry-specific patterns

101 lse-negative results, lower-cost, and higher analytical frequency make this method attractive for tra

102 The FIA allowed a high analytical frequency, approximately 96 injections per ho

103 esults in addition to the potential for high analytical frequency, the low cost and reagent-free natu

104 We propose the Analytical GREEnness calculator, a comprehensive, flexib

105 ered by continuous manufactural upgrades and analytical innovation, unconventional applications of ge

106 Overall, we hope our analytical insights on interfacial mechanisms will help

107 This method does not require any expensive analytical instrumentation but can achieve higher sensit

108 of battery cycling and degradation, operando analytical measurements are invaluable.

109 icromotors hold great potential to carry out analytical measurements in real-time with small amounts

110 Geological Survey analytical method and biweekly for 2 years focused on 14

111 Thus, this work shows an analytical method and, for the first time, a prediction

112 We postulate that the accuracy of an analytical method can be assessed in the absence of refe

113 ion (DIA) has potential as a high-throughput analytical method due to the reduced time needed for sam

114 tails remain unclear owing to the lack of an analytical method for global detection of protein target

115 This work aims to develop an automated analytical method for the characterization of small micr

116 This study developed a rapid analytical method for the determination of citrate, phos

117 In conclusion, our data describe a specific analytical method for the quantification of NAT1 and NAT

118 This study proposed a novel analytical method for the separation and determination o

119 An analytical method for the simultaneous determination of

120 the samples were analyzed with a traditional analytical method for total phenolic quantification (Fol

121 The analytical method has been validated by verifying the di

122 Suitability of the analytical method is demonstrated by the direct determin

123 There is currently no single analytical method that can simultaneously acquire elemen

124 hat targeted MS can serve as a complementary analytical method to DNA-based methods for the detection

125 An analytical method was developed to analyze pyridalyl res

126 The developed analytical method was successfully applied for the deter

127 We apply this in a straightforward analytical method, persistent association-based normaliz

128 This study aims to develop an analytical method, suitable for quality control, to dete

129 to decrease the analysis time, the presented analytical methodology for CRE detection is translated i

130 These findings are thus bringing a new analytical methodology to better understand the isotope-

131 The present study aims at developing an analytical methodology which allows correlating sensory

132 ude of criteria considered when assessing an analytical methodology's greenness.

133 Hence, analytical methods able to discriminate and identify dif

134 However, analytical methods are currently limited for quantifying

135 The analytical methods are efficient, and they also do not a

136 for prediction studies, their corresponding analytical methods are much less developed.

137 This has important implications for analytical methods based on extraction of lipids from ar

138 The commercial kits/analytical methods based-sensing strategies have also be

139 the range of sample preparation schemes and analytical methods enabled by 3DP technologies.

140 here is thus an urgent need to develop novel analytical methods for arsenic, preferably with the pote

141 evelopment of fast, easy-to-use and low-cost analytical methods for food adulteration analysis has be

142 progress is hindered by the lack of suitable analytical methods for rapid, routine, and unbiased meas

143 Analytical methods for the detection and quantitation of

144 A broad spectrum of analytical methods has become available over the last fi

145 ointed DBPs with the greatest toxic potency, analytical methods have been lacking for quantifying com

146 Vastly used analytical methods have so far struggled to provide a fa

147 While analytical methods targeting specific compounds are crit

148 Until now, there has been a lack of analytical methods that can reliably verify the authenti

149 to multiple sites on a receptor, but current analytical methods to characterize such interactions are

150 re is a growing interest in developing novel analytical methods to get further information about quin

151 elopment of new sodium-ion batteries and new analytical methods to non-invasively, directly visualise

152 iews the recent developments in the field of analytical methods used for porcine identification.

153 The analytical methods were validated fully in accordance wi

154 rehensively characterized through exhaustive analytical methods which detail the mechanism while conf

155 ime-integrated instrumentation, and multiple analytical methods.

156 e use of different sampling, processing, and analytical methods.

157 of these states confers many advantages for analytical methods: high selectivity from the multiple s

158 nd widespread use of droplet technologies in analytical microbiology.

159 The new US-FASP method matches the analytical minimalism rules as time, cost, sample requir

160 We apply three approaches-bioinformatics, analytical modelling and computational simulation-to und

161 Analytical modelling of the experimental data, based on

162 Numerical simulation, analytical modelling, additive layer manufacturing (3D p

163 g pathway, we develop here computational and analytical models, and experimentally validate a novel n

164 New analytical neuroimaging approaches will enable character

165 The analytical parameters which effective in the method, inc

166 roved in terms of sensitivity and imperative analytical parameters.

167 analysis, after the optimization of several analytical parameters.

168 The analytical performance data are excellent, but in the fa

169 ature of the printing materials enhanced the analytical performance of 3D-printed sample pretreatment

170 The analytical performance of each MOF for detecting PFOA wa

171 Analytical performance of MIm was excellent, allowing th

172 With an optimal analytical performance of ~30 min, the resulting bacteri

173 ondition requirements, the SPC retained good analytical performance to detect subnanomolar target con

174 Analytical performance with the selected pure-component

175 KM microneedle device displays an attractive analytical performance, with high sensitivity (with low

176 t statistical difference was found among the analytical performances of all three spectrometers.

177 The analytical performances, the advantages and drawbacks of

178 the application and customization of such an analytical phenotypic approach.

179 Using fMRI, we propose an analytical pipeline to identify abnormal thalamocortical

180 Here we describe a high-throughput analytical platform based on denaturing size-exclusion u

181 After discharge, the analytical platform derived a personalized baseline mode

182 This analytical platform has been applied to the identificati

183 Here, we describe a new analytical platform that enables direct and high-through

184 A fully automated integrated analytical platform that included continuous water sampl

185 ) examined the performance of a personalized analytical platform using continuous data streams to pre

186 ion of selected variables from the different analytical platforms), allowed highly efficient (99-100%

187 en utilized as the detection principle of an analytical procedure applied for the first time to the e

188 ampling of the various cell types during the analytical procedure, contamination during cell isolatio

189 Here, we devised novel analytical procedures enabling extensive and systematic

190 help menus were accessible during the entire analytical process via the web-based GUI, particularly a

191 of chromatographic separation simplifies the analytical process, extra procedures may be needed durin

192 er compares the results of standard chemical analytical processes and electrochemical impedance spect

193 obtained via a high-resolution sampling and analytical protocol to estimate the PFAS mass distributi

194 ial of a Pt electrode can be controlled with analytical purposes using a coating of Nafion, thus prov

195 assy carbon paste electrode was selected for analytical purposes.

196 ection limit at the level of mug.L(-1), wide analytical range from 5.10(-4) - 10 mg.L(-1), high selec

197 tamers, was developed and fully validated in analytical ranges, adjusted to their recommended dietary

198 milar 1st series cyclic oligomer standard as analytical reference.

199 It refers to relating analytical response with logarithm of concentration, fit

200 ducible data are essential for confidence in analytical results and are particularly important with l

201 tor-sensitive, and hence may lead to varying analytical results, as well as cause artificial imaging

202 Using simulations and analytical results, we explored how different types of h

203 ee population-based Brazilian birth cohorts (analytical samples: n = 2740 for 1982 cohort, aged 30 ye

204 The study focuses on so-called "analytical scale" separations, i.e., separations that ar

205 ion make it a capable and versatile tool for analytical science, while its low cost means it is ideal

206 e and objective approach for high throughput analytical screening to discard defective cocoa samples.

207 try enhanced by affinity hydrogel particles (analytical sensitivity = 2.5 pg/mL) to study tick pathog

208 pecies C. ulcerans and C. pseudotuberculosis Analytical sensitivity and specificity of the assay were

209 ographic optimization significantly enhanced analytical sensitivity for Gln, thus enabling down-sized

210 Analytical sensitivity for SARS-CoV-2 detection is a key

211 The SAMBA II SARS-CoV-2 test has an analytical sensitivity of 250 copies/ml for detecting tw

212 gures of merit (AFOMs), such as sensitivity, analytical sensitivity, and limits of detection and quan

213 ePlex SARS-CoV-2 Test [ePlex]) to determine analytical sensitivity, clinical performance, and workfl

214 c activity measurement often suffer from low analytical sensitivity.

215 use the statistical spectroscopic tools and analytical skills to perform solid phase extraction (SPE

216 The analytical solutions of the model determine the equilibr

217 This level of analytical speed is highly competitive compared with oth

218 , there is an imminent need to study the pre-analytical stability of this biomarker.

219 iments with equilibrated soil-water-AFFF and analytical standards.

220 tive omics methods as well as in integrative analytical strategies, systems biology approaches for th

221 In addition, the potential for each analytical strategy and its challenges are discussed as

222 Applicability/accuracy of the developed analytical strategy was checked by recovery experiments

223 To compare the performance of this analytical strategy with a conventional offline procedur

224 Although the intrinsic analytical strength of ECL depends critically on the ove

225 branched amine coreactants, which raises the analytical strength of ECL well beyond that of present s

226 The results need to be confirmed in analytical studies, in which information of exposure to

227 ion capabilities available in these types of analytical studies.

228 soil was emitted as PFAS in the quantifiable analytical suite.

229 The analytical tasks and format conversions are accomplished

230 unique testing in 566 (82.4%) of 687 cases (analytical TAT, 30 minutes).

231 label-free, non-invasive and non-destructive analytical technique for the fast and accurate identific

232 discussed in the 1990s, application of this analytical technique is still very much in its infancy.

233 Raman spectroscopy (RS) is an emerging analytical technique that can be used to develop and dep

234 spectrometry (LC-MS) has become an essential analytical technique to quantify the quality attributes

235 for OTA was used in this paper to create an analytical technique.

236 Various analytical techniques and microscopy methods were employ

237 important information, various complementary analytical techniques are applied, among which vibration

238 he important development of advanced in situ analytical techniques as well as theoretical studies to

239 Conventional analytical techniques cannot resolve the distribution of

240 Different analytical techniques have been reported to assess intac

241 ble and number in the thousands, traditional analytical techniques have proven unable to achieve this

242 nt was characterized by a range of different analytical techniques including FTIR, UV spectrophotomet

243 ability was thoroughly investigated by multi-analytical techniques prior to butanol determination in

244 enetics, genomics, biochemical, and advanced analytical techniques to dissect the biosynthetic pathwa

245 but concise details about methodologies and analytical techniques used in the purification of such p

246 onship among chemical changes from different analytical techniques were established.

247 We joined analytical techniques, based on stable isotopes and trac

248 method compared to conventional instrumental analytical techniques.

249 as chromatography-flame ionization detection analytical techniques.

250 fferent histological, molecular biology, and analytical techniques.

251 anging abundances, challenging the limits of analytical technologies.

252 Through analytical theory and evolutionary individual-based simu

253 that possible with kilobots, and present an analytical theory to aid the design process.

254 spectrometry imaging (MSI) is an established analytical tool capable of defining and understanding co

255 the biofouling community is still lacking an analytical tool for the detection and counting of diatom

256 oresis-mass spectrometry (CE-MS) is a mature analytical tool for the efficient profiling of (highly)

257 vides a simple, fast, inexpensive, promising analytical tool for the screening of both the quality an

258 arbon atom and (95)Mo NMR spectroscopy; this analytical tool had been rarely used in organometallic c

259 Charge variant analysis is a widely used analytical tool in characterization of monoclonal antibo

260 lity for Raman spectroscopy to be used as an analytical tool to measure degradation and PTMs in-line

261 improvements that have established AFM as an analytical tool to observe and quantify native biologica

262 target and high-throughput sequencing as an analytical tool, we investigate a potential mechanism of

263 ed Au chip was proven to clearly be a better analytical tool.

264 m an experimental technique into a practical analytical tool.

265 stry, the proposed methodology is a suitable analytical tool; for tracing origins, grape type, and ev

266 rrently available scRNA-seq technologies and analytical tools and discuss the latest findings using s

267 entation, including study design principles, analytical tools and future developments for the field o

268 ce of sampling and the use of a plurality of analytical tools and methods to sufficiently explore gen

269 The roles of biosensors as powerful analytical tools are emphasized for the detection of vir

270 tic resonance are the most commonly reported analytical tools during dereplication analysis.

271 the same or different species and offers new analytical tools for fast, specific, and reliable analys

272 Immunoassays are fundamental analytical tools in molecular diagnostics, therapy monit

273 These datasets and analytical tools make MtSSPdb a unique and valuable reso

274 Applying modern analytical tools such as machine learning to increasingl

275 enefited from the advances in technology and analytical tools that have improved our understanding of

276 uction of these devices, leading to powerful analytical tools that remove the need for external detec

277 nd as such represent powerful, simple-to-use analytical tools to monitor the conformational integrity

278 different research communities use different analytical tools where, for example, physical oceanograp

279 chnology, foundational genomic resources and analytical tools, and by access to vast amounts of genot

280 ene expression atlas integrated with various analytical tools, including differential expression, coe

281 Pase and GST, were analyzed using a panel of analytical tools, including geNorm, NormFinder, BestKeep

282 ed to render them as mainstream quantitative analytical tools.

283 new classification paradigm and expansion of analytical tools.

284 pported by confocal Raman, fluorescence, and analytical transmission electron microscopies as well as

285 ta regarding time to viral rebound following analytical treatment interruption (ATI) have been used t

286 on that increase before viral rebound during analytical treatment interruption (ATI) may affect HIV p

287 Analytical treatment of linked equilibria scales poorly

288 llows both computer simulations and rigorous analytical treatments, which lead to the following resul

289 ug delivery systems (NDDSs) by making use of analytical ultracentrifugation (AUC).

290 entical) by small-angle X-ray scattering and analytical ultracentrifugation revealed that HC1 self-as

291 Fluorescence, circular dichroism and analytical ultracentrifugation studies showed that POT1

292 Analytical ultracentrifugation was utilized to determine

293 Here, using NMR chemical shift perturbation, analytical ultracentrifugation, and native electrospray

294 werful matrix-free assay of co-sedimentation analytical ultracentrifugation, reinforced by dynamic li

295 on, nuclear magnetic resonance spectroscopy, analytical ultracentrifugation, small-angle X-ray scatte

296 n a complex medium for either preparative or analytical use.

297 The analytical utility of chimeric ion loading is demonstrat

298 Analytical viscometry coupled with molecular dynamics si

299 Here, we report a comprehensive analytical workflow for IgA1 HR O-glycoform analysis.

300 ection systems that are employed in the same analytical workflow.