ライフサイエンスコーパス: cleanup

1 spore germination and facilitation of spore cleanup.

2 the extract were removed by low-temperature cleanup.

3 they do not require chemical modification or cleanup.

4 dvancing attenuation models and prioritizing cleanup.

5 followed by microflow LC with online sample cleanup.

6 ion and enrichment but also effective sample cleanup.

7 pplications in biomedicine and environmental cleanup.

8 nics, particularly in the field of oil spill cleanup.

9 yed using LC/MS/MS without additional sample cleanup.

10 d subsequently used for on-probe biomolecule cleanup.

11 of proteins with minimal sample handling and cleanup.

12 prefractionation, digestion, separation, and cleanup.

13 olution, and analyzed without further sample cleanup.

14 ll recoveries compared with conventional SPE cleanup.

15 ulation may be a poor strategy for oil-spill cleanup.

16 ne in the culture medium without any further cleanup.

17 re directly analyzed by MALDI without sample cleanup.

18 rescence polarization without any additional cleanup.

19 ntage within minutes or hours without sample cleanup.

20 steps involved in the extraction and sample cleanup.

21 dy the application of nanotechnology for oil cleanup.

22 s when limited sample sizes prevent off-line cleanup.

23 both the process and the ship performing the cleanup.

24 potential environmental damage caused by the cleanup.

25 quantitative information with minimal sample cleanup.

26 human health, agriculture, and environmental cleanup.

27 n oily wastewater purification and oil spill cleanup.

28 r reduced-emission combustion and fuel-spill cleanup.

29 After data filtering and cleanup, a total of 59,387,374 reads, representing 1,649

30 uding depletion of uncapped RNA and reaction cleanups, a STRIPE-seq library can be constructed in abo

31 Engagement in cleanup activities following the Deepwater Horizon oil s

32 ecame a Superfund site, and despite years of cleanup activities, many of the compounds can still be f

33 ine turbulent flow chromatography for sample cleanup and analyte enrichment (online-SPE-LC-MS/MS).

34 PP-MS efficiently integrates sampling/sample cleanup and atmospheric pressure ionization, making it a

35 ironmental net benefits of the proposed NPGP cleanup and can be adapted to similarly evaluate other r

36 cks in pharmaceutical bioanalysis are sample cleanup and chromatographic separations.

37 potentially eliminating the need for sample cleanup and chromatographic separations.

38 ported a significant discrepancy between the cleanup and contamination time scales, while its cause i

39 acility and (ii) use safe procedures for the cleanup and disposal of soil contaminated with bird drop

40 SOD) strategy that provides effective sample cleanup and enables high and constant peptide yields in

41 tion and were introduced as sorbents for the cleanup and enrichment of a ProGRP signature peptide fro

42 hase extraction method was developed for the cleanup and enrichment of dipeptides, tripeptides, and t

43 olumn (1 mm i.d. x 20 mm) for on-line sample cleanup and enrichment, a 5-micron C18 trapping column (

44 id-phase extraction (SPE) element for sample cleanup and enrichment, serving to increase both detecti

45 dialysis was compared to on-the-probe sample cleanup and found to more completely remove the nano- to

46 on of extraction time, and adaptation of the cleanup and fractionation steps increased mean recoverie

47 PE greatly simplifies and accelerates sample cleanup and improves overall recoveries compared with co

48 ith microscale separation methods for sample cleanup and introduction to mass spectrometry.

49 n products are sampled directly with minimal cleanup and monitored by MALDI-FTMS to elucidate the oli

50 umn was designed to provide efficient sample cleanup and overcome major problems arising from salt in

51 inexpensive, convenient, and precise sample cleanup and preconcentration method for the determinatio

52 An integrated PCR sample cleanup and preconcentration process is developed for fo

53 d following chip-based monolithic SPE sample cleanup and preconcentration.

54 on and continuous solid-phase extraction for cleanup and preconcentration.

55 chaotropic and reducing agents, with sample cleanup and preparation for Edman sequencing performed u

56 andle biological samples with limited sample cleanup and reduced concern for biological matrix effect

57 ying a vital role in the regulation of brain cleanup and repair after stroke.

58 age dispersive solid phase extraction (dSPE) cleanup and the residues were finally estimated by gas c

59 ous areas, such as healthcare, environmental cleanup, and alternative energy production.

60 n time, denaturant, source of enzyme, sample cleanup, and denaturation temperature, among others.

61 hly sensitive methods for sample collection, cleanup, and detection.

62 via ultrasonic extraction, acidified silica cleanup, and fractionation on neutral silica cartridges

63 sive solid-phase extraction (dispersive-SPE) cleanup, and liquid chromatography-tandem mass spectrome

64 chemical methods in terms of safety, ease of cleanup, and quality of resulting glycomic data.

65 ucleic acid purification and enrichment, PCR cleanup, and single-strand generation.

66 ritical for water treatment, hazardous waste cleanup, and the identification of workplace hazards.

67 Plasma samples required no cleanup apart from protein precipitation, and no derivat

68 interest from the milk matrix and subsequent cleanup are an important aspect of this project.

69 rgy-efficient desalination and environmental cleanup are discussed.

70 ine life and carbon cycling, using The Ocean Cleanup as a case study.

71 action efficacy and offered excellent sample cleanup as favorable matrix effects were observed (mean

72 This method does not require any cleanup as the PSA-based cleanup was on par with no-clea

73 otentially important pathway for groundwater cleanup, as a sequence of dechlorination and hydrogenati

74 um has been developed using multistep sample cleanup at the protein level, tryptic digestion, and iso

75 etry (LC/MS/MS) combined with a novel sample cleanup based on a molecularly imprinted polymer (MIP) c

76 ethod to a high-throughput sample extraction/cleanup based on salting out with ammonium formate.

77 nated samples often require extensive sample cleanup before analysis, with the method used dependent

78 hods, our NETLOP approach requires no sample cleanup between different labeling steps to minimize sam

79 protocols (overnight deglycosylation, sample cleanup by graphitized carbon or cellulose cartridge, hi

80 before the whole spot was dissolved prior to cleanup by immunoaffinity extraction, tryptic digest, an

81 ut chromatographic separation, after minimum cleanup by membrane drop dialysis.

82 lemented to release the peptides with sample cleanup by reversed-phase high-performance liquid chroma

83 This enables rapid cleanup by simply spotting the sample onto the modified

84 lar-weight (UHMW) DNA extraction and library cleanup by using glass beads and hexamminecobalt(III) ch

85 CZE-ES-MS, combined with solid-phase sample cleanup, can detect adducts at levels of four adducts in

86 n SP3 (SP4) as an alternative to SP3 protein cleanup, capturing acetonitrile-induced protein aggregat

87 f the two methods required the use of sample cleanup cartridges.

88 eriod likely associated with hazardous waste cleanups, channel dredging, and spoils disposal in the D

89 rial was combined with a microfluidic glycan cleanup chip and a commercially available HPLC-chip to p

90 spersing agents: C18 and florisil, and eight cleanup co-sorbents: florisil, silica, silica/alumina, E

91 as minimized by the insertion of a protein G cleanup column between the injection port and the Mab Sa

92 The cleanup column detained serum components, that otherwise

93 By using an on-line cleanup column in tandem with an HPIAC column, the fluor

94 s of rivers in the U.S. and has an estimated cleanup cost of $32-$72 billion, the low pH and high met

95 An 80% cleanup could reduce macroplastic concentrations to with

96 operation of sputter deposition and erosion (cleanup) cycles, depth profiling could be achieved with

97 act with hydrocarbons isolated by silica gel cleanup (DCM-SGC).

98 Sample and enzyme cleanup, digestion control, and MW reconstruction were f

99 cedure in a detergent cocktail buffer, and a cleanup/digestion procedure providing very consistent pr

100 This in situ cleanup dramatically increases the mass spectral signal-

101 able method validation performances and good cleanup effects.

102 evaluation of the obtained data in terms of cleanup efficiency.

103 or the sources from the spill, recovery, and cleanup efforts.

104 The automated protocol for sample cleanup eliminated all manual manipulations with a recyc

105 os (PR) and 95% CIs for associations between cleanup exposures and hypertension.

106 nd develop and apply a simple seafood sample cleanup, extraction, and quantitative analysis method us

107 ted into software-controlled Raman and laser cleanup filter devices.

108 using a simple solid-phase extraction (SPE) cleanup followed by isotope dilution high-performance li

109 elopment, focus was given to optimizing HPLC cleanup for complex foodstuff.

110 ped for fast and efficient fractionation and cleanup for ESI-MS and ESI MS/MS analyses of biological

111 the rapid (approximately 1-5 min) DNA sample cleanup for ESI-MS.

112 onjunction with solid-phase extraction (SPE) cleanup for the determination of 16 polycyclic aromatic

113 f an internal standard and a means of sample cleanup for typical in vitro sample compositions.

114 The PC-SPRI cleanup format was also integrated to a capillary gel el

115 Samples were extracted without cleanup/fractionation and analyzed using targeted and no

116 's blood lead levels (BLLs) monitored during cleanup from 1988 through 2002.

117 It may also be that this cleanup function of sleep is a general principle of neur

118 by international personnel to comprehensive cleanup funded and accomplished by the Nigerian governme

119 Shoreline cleanup further reduced adult snail density as well as s

120 ary amines and 25mg of octadecylsiloxane for cleanup; graphitized carbon black was added for tomatoes

121 ep QuEChERS-based approach to extraction and cleanup has been developed.

122 consists of ultrasonic extraction, Florisil cleanup, HPLC fractionation over porous graphitic carbon

123 afe) and Enhanced Matrix Removal (EMR)-lipid cleanup in 96-well plates for sample preparation, couple

124 g (TMT) 6-plex labeling, pooling, and sample cleanup in a 96-well-plate format before reversed-phase

125 g with analyte extraction/enrichment, sample cleanup (including elimination of matrix effects in the

126 necessitate extensive sample preparation and cleanup, including glycoprotein capture, N-glycan releas

127 rom 511 patients with IPF in the multicenter CleanUP-IPF (Study of Clinical Efficacy of Antimicrobial

128 We demonstrate that quadratic beam cleanup is accompanied by significant self-focusing of t

129 On-the-probe sample cleanup is fast (a few minutes) and operates best on pic

130 , the hydrodynamic dispersion coefficient of cleanup is significantly larger than that of the contami

131 Cleanup is technically challenging and the costs based o

132 that HDD provides for the logistics of site cleanup, it also delivers sustainability advantages, com

133 the feasibility of bioremediation to achieve cleanup levels for PAHs in soil.

134 screening levels (SSLs), used in setting Pb cleanup levels, to levels that may be difficult to achie

135 ld be considered when evaluating groundwater cleanup levels.

136 eloping effective reduction, preventive, and cleanup measures.

137 A reproducible high-throughput sample cleanup method for fluorescent oligosaccharide mapping o

138 A semiautomated extraction and cleanup method has been developed for the measurement of

139 A semiautomated extraction and cleanup method has been developed to measure eight polyb

140 only 18 OH-CTTs was used to develop a sample cleanup method which aimed to remove CTTs, isobaric PCBs

141 often a vital step for which chromatographic cleanup methods remain one of the most frequently used s

142 g ecosystem damage, and the effectiveness of cleanup methods remains a challenge.

143 ltiplexed plate-based high-throughput sample cleanup methods were coupled to IR-MALDESI-MS to enable

144 onjunction with this method should allow the cleanup of 96 samples in 23 min, a significant decrease

145 Cultural control of CBB by harvesting, cleanup of abscised fruits, and chemical sprays previous

146 reasing the rate and completeness of in situ cleanup of adsorbed phase contaminants.

147 The efficient derivatization and cleanup of alditol acetate derivatives for GC was achiev

148 The application of this column in the cleanup of barley samples prior to liquid chromatography

149 vice was constructed for rapid microdialysis cleanup of biological samples for analysis by electrospr

150 was tested for solid-phase extraction (SPE) cleanup of biological samples prior to directly coupled

151 The low blanks and quick cleanup of C18 cartridges support SPE for processing suc

152 g techniques for the rapid fractionation and cleanup of complex biological samples.

153 munities in management strategies addressing cleanup of contaminated coastal sites by military explos

154 tion is a simple and low-cost method for the cleanup of contaminated water.

155 ed for a step of simultaneous enrichment and cleanup of derivatized peptide pairs using immobilized a

156 SPRI cleanup of dye-terminator sequencing fragments using the

157 in the 1,3,6,8 positions may be lost during cleanup of environmental extracts if a multilayer column

158 Cleanup of existing plastic pollution is crucial to miti

159 hod was demonstrated to be useful for online cleanup of extracts from dried blood spot (DBS) samples.

160 eased protection against oil exposure during cleanup of future spills.

161 on component of many treatment processes for cleanup of industrial effluents.

162 genously), MPhi become more effective in the cleanup of ischemic debris and produce trophic factors t

163 also had high buoyancy critical for economic cleanup of oil over water.

164 roethylene (TCE) is a potential strategy for cleanup of polluted environments.

165 A method for the cleanup of Sanger DNA sequencing reaction products for c

166 e compounds, provides an important means for cleanup of Se-polluted environments.

167 toremediation could facilitate the effective cleanup of sites contaminated with high levels of explos

168 Bioremediation is an accepted technology for cleanup of soil contaminated with polycyclic aromatic hy

169 mated method was successfully applied to the cleanup of some representative combinatorial library sam

170 between THC exposure during the response and cleanup of the Deepwater Horizon oil spill (Gulf of Mexi

171 o-dimensional solid-phase extraction for the cleanup of the plasma digest.

172 hancement for environmental samples, a prior cleanup of the sample using standard ion-exchange cartri

173 only a satisfactory recovery but also a good cleanup of the sample.

174 The cleanup of this cove resulted in the maintenance of resi

175 methods, other methods are being pursued for cleanup of those sites.

176 The economic cleanup of wastewater continues to be an active area of

177 It comprises a protocol for cleanup of whole blood samples, followed by direct ultra

178 a small volume in (~5 muL), performs sample cleanup on human serum samples, and delivers a small vol

179 re several types of oil spill work including cleanup on water (PR, 1.34 [95% CI, 1.08-1.66]) and resp

180 hromatography was used for additional sample cleanup on-line, and baseline separation and detection o

181 e oil, NO(x) emissions from the recovery and cleanup operations produced ozone.

182 s of sterols, this method requires no sample cleanup or derivatization and presents improved values f

183 Extraction took 5 min, no cleanup or evaporation of the extracts was needed and th

184 d formaldehyde) and requires no postlabeling cleanup or isotopic impurity corrections.

185 re removed during the concentration step, no cleanup or other sample treatments are needed.

186 extracted with methanol, without any sample cleanup or preconcentration step prior to analysis.

187 plasma samples without the need of extensive cleanup or preconcentration steps as required for tradit

188 ut the addition of an organic matrix, sample cleanup, or prefractionation.

189 spersants used in the oil spill response and cleanup (OSRC) work following the Deepwater Horizon disa

190 on capillary machines, no additional sample cleanup other than ethanol precipitation was required.

191 oliferative disorders demonstrated excellent cleanup performance between 91.9 and 99.9% of target DNA

192 ing factor (RF) expression while obviating a cleanup phase to purge residual traces of vector.

193 platforms typically involve a separation or cleanup prior to analysis and are too slow for large-sca

194 PCDDs) usually requires preconcentration and cleanup prior to analysis.

195 SPE cartridge was used to further cleanup prior to HPLC-FLD analysis.

196 g in-solution enzymatic digestion and sample cleanup prior to MALDI-MS analysis.

197 utes, and it does not require further sample cleanup prior to MS analysis.

198 vice is a low-cost tool that enhances sample cleanup prior to MS for SNP genotyping.

199 n IgG was digested directly in serum with no cleanup prior to the liquid chromatography.

200 The final cleanup procedure consisted of (i) gel permeation chroma

201 In the previous paper, a sample cleanup procedure for DNA sequencing reaction products w

202 action method combined with a dispersive SPE cleanup procedure for extracting triclosan and methyltri

203 n addition, a new extraction, isolation, and cleanup procedure has been developed to prepare the phos

204 step has been incorporated within the sample cleanup procedure to ensure that all LMG residues are co

205 A single step extraction-cleanup procedure using porous membrane-protected micro-

206 A single step extraction-cleanup procedure using salting out liquid-liquid extrac

207 An FTICR "in-trap" ion cleanup procedure was necessary for some complexes to re

208 ting a solid-phase reversible immobilization cleanup procedure, the calculated lifetime of the dye la

209 spersive solid-phase extraction (d-SPE) as a cleanup procedure, the method was compared to convention

210 rometric detection and a new-off-line sample cleanup procedure.

211 ss gate or eliminated by a simple microliter cleanup procedure.

212 een the developed method and two alternative cleanup procedures (MultiSep and IAC--immunoaffinity col

213 The comparison of the different cleanup procedures emphasizes the significance of this s

214 and no further re-extraction, evaporation or cleanup procedures were necessary.

215 Although this assay avoids cleanup procedures, matrix effect of <-11% was achieved.

216 Sample cleanup procedures, therefore, must be performed prior t

217 nto the chip to perform the reaction mixture cleanup process in an integrated fashion on the chip tha

218 ter each sample was subjected to a multistep cleanup process that included phenyl solid-phase extract

219 we introduce an online electrokinetic sample cleanup process with electroosmotic flow (EOF)-assisted

220 acceptor modified silica gel showed the best cleanup properties.

221 Furthermore, the on-line sample cleanup protocol minimizes sample handling and facilitat

222 fragments 10-50-fold compared to traditional cleanup protocols.

223 ively in mu-EME experiments due to the urine cleanup provided by that technique.

224 solvent and MgSO4, PSA, C18 and Florisil as cleanup reagents was recommended in the final method.

225 Estimated cleanup-related carbon emissions [0.4-2.9 million metric

226 e NPAHs in the emissions with minimal sample cleanup required.

227 ass spectrometry reduced the need for sample cleanup, resulting in a rugged and rapid method capable

228 rmed NeST (nettoie Salmonella pas Theiler's [cleanup Salmonella not Theiler's]) is shown to be causal

229 one in more traditional preconcentration and cleanup schemes used on-line with ES-MS.

230 hexane during extraction and optimized dSPE cleanup significantly minimized the matrix effects.

231 th bioanalysis without the need for chemical cleanup, spiked blubber-PDMS extracts were dosed into th

232 Combining hydride generation and a second cleanup stage achieves sufficient purification for Se is

233 sample matrixes benefit from a cation resin cleanup stage prior to using BOBCalixC6 that serves to e

234 perature, followed by water gas shift and CO cleanup stages for hydrogen production.

235 plications without invoking any CO shift and cleanup stages.

236 sulfate and sodium chloride), followed by a cleanup step by activated neutral carbon.

237 ies from fortified sediment samples, using a cleanup step followed byASE, were 85% for C12BAC and 79%

238 SEPA Methods 3510/8015B, unless a silica gel cleanup step is used to separate nonpolar hydrocarbons f

239 e NIMS surface allowed for an in situ sample cleanup step leading to a more than 10-fold increase of

240 curacy and precision without the need of any cleanup step or electrical equipment, allowing its porta

241 and successfully compared when a filtration cleanup step preceded iTRAQ labeling.

242 This cleanup step uses sequential cartridges to remove sulfat

243 ion involved extraction with DCM/methanol, a cleanup step with silica, and conversion of the (oxo)ars

244 d with acidified acetonitrile, followed by a cleanup step with sodium acetate.

245 for the removal of human DNA and a final DNA cleanup step with solid-phase reversible immobilization

246 samples (including a solid-phase extraction cleanup step) followed by analysis by high-performance l

247 In our assay method, we implemented a serum cleanup step, employing a monospin solid-phase extractio

248 vent extraction (ASE) followed by an on-line cleanup step.

249 ods utilized different sample extraction and cleanup steps in addition to different instrumental anal

250 nd cost-intensive and the required extensive cleanup steps make it selective toward targeted chemical

251 methods lack specificity and require several cleanup steps via chromatography purification.

252 Using cleanup steps, the accuracy and precision of the measure

253 the need for laborious prederivatization and cleanup steps.

254 ation studies without numerous extraction or cleanup steps.

255 On-the-probe sample cleanup strategies were developed for matrix-assisted la

256 tion in conjunction with an automated sample cleanup strategy and a rapid resolution reverse-phase hi

257 Protein precipitation and "PHREE" column cleanup strategy provided recoveries of 81-108% for all

258 hich is an important step in determining the cleanup strategy, is based on bioavailability data.

259 However, spill response and cleanup techniques (e.g., oil recuperation, soil-sedimen

260 The limitations of existing cleanup techniques for benign oil remediation has inspir

261 The lack of affordable and effective cleanup technologies for explosives contamination requir

262 A cleanup technology is being developed based on the radia

263 veloped a fully automated, dual-stage online cleanup that uses strong cation-exchange (SCX) followed

264 Following straightforward sample cleanup, this simple treatment of glycoprotein gel piece

265 Estimated cleanup times depends mainly on the number of booms that

266 duced buffer amounts and on-the-probe sample cleanup to minimize the digest impurities.

267 sample volumes, making the application of IP cleanup to precious samples nearly impossible.

268 work demonstrates the application of in-trap cleanup to several biologically relevant systems, includ

269 as the PSA-based cleanup was on par with no-cleanup treatment.

270 affected by the housing remediation or trash cleanup treatment.

271 among oiled sites with and without shoreline cleanup treatments.

272 The subsequent cleanup used diesel equipment that further polluted the

273 The extraction and cleanup via silica-based magnetic adsorbent dispersion i

274 Optimum extraction of low-temperature cleanup was achieved when using two extractions with a 4

275 The sensitivity using immunoaffinity cleanup was approximately 100-fold greater than that obs

276 The effectiveness of the cleanup was attributed to the size difference between th

277 Sample cleanup was automated using the same modular SPE system.

278 e extracted with acetonitrile and subsequent cleanup was done by dispersive solid-phase extraction (Q

279 oes not require any cleanup as the PSA-based cleanup was on par with no-cleanup treatment.

280 Enrichment and cleanup was performed with electromembrane extraction fo

281 e analytical method combined with a Florisil cleanup was successfully applied to analyze TBPH and OH-

282 Following last year's major cleanup, we have updated 317 entries, listing 89 new res

283 After a simple cleanup, we used mass spectrometry to perform a screenin

284 and citizen science data on 45,067 shoreline cleanups, we assess the impact of these policies on plas

285 chain reaction amplification and subsequent cleanup were performed with all reagents prestored on th

286 e studied by DMS to demonstrate rapid sample cleanup when coupled to mass spectrometry.

287 Low-temperature cleanup, which is a simple and cost-efficient sample pre

288 of the SALDI-chip during drying, for further cleanup, while HILIC separates the salts in HILIC-MS.

289 their environmental impacts; however, ocean cleanup will be a complex and energy-intensive operation

290 Using on-probe sample cleanup with a cation-exchange resin and a matrix mixtur

291 egrees C and -25 degrees C for 24 h and then cleanup with an Alumina-N SPE cartridge.

292 s a powerful approach for integrating sample cleanup with DNA separation.

293 round interference was reduced after solvent cleanup with good extraction efficiency (>96%).

294 iquid extraction with ACN and dispersive SPE cleanup with MgSO(4) and C(18).

295 sodium chloride for extraction, followed by cleanup with solid-phase extraction using a tandem cartr

296 dose-rates of radiation from post-Chornobyl cleanup work was associated with a significant increase

297 ldren born in selected regions of Ukraine to cleanup workers and/or evacuees exposed to low-dose-rate

298 s conducted in a cohort of 110,645 Ukrainian cleanup workers of the 1986 Chornobyl nuclear power plan

299 ed hypertension among oil spill response and cleanup workers.

300 In-trap cleanup yields improved mass measurements for these syst