ライフサイエンスコーパス: separation

1 mong similar events in memory (i.e., pattern separation).

2 accurate spindle positioning and chromosome separation.

3 Escherichia coli, is required for the EsxA:B separation.

4 synergetic adsorption-diffusion-selectivity separation.

5 plets help understand the principle of phase separation.

6 Hierarchical clustering confirmed group separation.

7 without the need for tedious chromatographic separation.

8 s fast enough to be compatible with mobility separation.

9 -complexity domain (LCD) promotes LEM2 phase separation.

10 les and sequence features important to phase separation.

11 ological condensates via liquid-liquid phase separation.

12 CTD while GRN-5 mediated liquid-liquid phase separation.

13 effects of the resulting currents and charge separation.

14 g neural progenitor cell (NPC) daughter cell separation.

15 r selective ion conduction and efficient ion separation.

16 g the chromatographic performance of peptide separation.

17 igration of electrons and interfacial charge separation.

18 play a key role in modulating protein phase separation.

19 xt generation membranes for sour natural gas separation.

20 P) were similarly found to alter their phase separation.

21 show that Drosophila HLBs form through phase separation.

22 l developmental processes required for digit separation.

23 self-assembly for highly selective and fast separations.

24 nd anion exchange (SCX, SAX), and mixed-mode separations.

25 r vesicles capable of undergoing lipid phase separations.

26 Beyond the separation according to cortical region, response latenc

27 esalination processes and the very different separations achieved.

28 tifs are thought to be important for pattern separation across species.

29 s are covered, such as diffusion-selectivity separation, adsorption-selectivity separation, and syner

30 e non-crosslinked emulsion that showed phase separation after two weeks of storage.

31 Here, we demonstrate the separation and analysis of six cyclosporin analogues usi

32 and efficient strategies to achieve product separation and catalyst and emulsifier recovery is still

33 proteasome activities regulate TDP-43 phase separation and conversion into a gel or solid phase.

34 antageous to couple extractions on-line with separation and detection systems that are employed in th

35 y proposed a novel analytical method for the separation and determination of cobalamin and cobalt in

36 Separation and determination were achieved by high perfo

37 was employed to assess their electrophoretic separation and enrichment.

38 alpha)-acetylation inhibited the heterodimer separation and hence prevented EsxA from interacting wit

39 y only a few flavonols in blueberries due to separation and identification issues.

40 These features allow for the separation and identification of lipids to the underlyin

41 tion, and ion mobility (IM)-MS for efficient separation and identification of subresidue isomers.

42 the method is demonstrated by the successful separation and identification of the biomolecules AMP, A

43 As a proof of concept, in situ separation and imaging of lipid isomers with distinct sp

44 rface, changes the PBDB-TF/Y6 vertical phase separation and intermixing, and reduces the bottom surfa

45 large numbers of ions with arbitrarily small separation and is a step toward realizing strongly inter

46 The separation and MS detection conditions were optimized to

47 n 0.1-20 ps and revealed little or no charge separation and oxidation of the special pair, P700.

48 eliminate interfering compounds and improve separation and peak shape.

49 ful for precisely defining the start of each separation and quantifying the amount of sample injected

50 roteome with two-dimensional chromatographic separation and tandem-MS.

51 WW domain simultaneously alters interdomain separation and the internal conformation of the WW domai

52 nsumption breaks down into minimum energy of separation and the irreversible energy dissipation.

53 p immunosensing platform, avoiding blocking, separation and washing steps and exploiting a single ant

54 improving chemical and biochemical sensing, separations and amplification, among others.

55 lity range ultrahigh-resolution ion mobility separations and expands on the ability of SLIM to obtain

56 ustry for applications that include chemical separations and gas scrubbing.

57 icantly improved peak shapes, which improved separations and lowered detection limits.

58 By merging injection, separation, and detection features on a fused silica chi

59 ootprinting, extended liquid chromatographic separation, and ion mobility (IM)-MS for efficient separ

60 mical derivatization, chiral chromatographic separation, and multistage tandem MS, here we first demo

61 ent industrial standards for the extraction, separation, and purification of these metals from natura

62 m and long-term retention of memory, pattern separation, and reversal learning.

63 teractions, revealing a mechanism for strand separation, and show Csm3/Tof1 "grip" duplex DNA ahead o

64 ) is important for learning, memory, pattern separation, and spatial navigation, and its dysfunction

65 actions regulate nuclear localization, phase separation, and stress granule recruitment of CIRBP in c

66 lectivity separation, adsorption-selectivity separation, and synergetic adsorption-diffusion-selectiv

67 In many cases, phase separation appears to either underly or contribute to th

68 ion reference and sequence features of phase separation associated proteins.

69 Separations at different time intervals between end of o

70 nally, we propose a metaphor for rapid phase separation based on cloud formation, reasoning that our

71 Capillary separations based on sieving rather than electrophoresis

72 In this work, we mixed two separations based techniques to identify and quantify OT

73 ordings (n = 1) supported a cognition-action separation between caudate nucleus and putamen-a striata

74 NIFICANCE STATEMENT We show that the largest separation between features in the two eyes that yields

75 uations at subsecond timescales, with a wide separation between fluctuation and diffusion timescales.

76 Multiclass analyses offered substantive separation between fresh and aged samples.

77 Given the evolutionary separation between macaques and marmosets, our results s

78 ized for social face processing predates the separation between Platyrrhini and Catarrhini.

79 idth of the ionisation threshold exceeds the separation between rotational energy levels, preventing

80 the immune system has evolved to promote the separation between symbiotic microorganisms and the inte

81 was immobilized in agar to achieve a spatial separation between the iron-reducing bacteria and ferrih

82 ngth: Delta(dp) , the local interband energy separation between the lowest empty d-states on the dopa

83 the prosthetic group retinal, and 2) charge separation between the protonated retinal Schiff base (R

84 bending modulus is in part due to the 45 nm separation between the two membranes, which supports lar

85 t result in significantly decreased spectral separation between their middle- (M-) and long- (L-) wav

86 All models achieved complete separation between uveitis and lymphoma in the aqueous d

87 This method does not require the SO(2) separation but only a matrix pre-cleaning by solid phase

88 ve average phase purity, or TEM-imaged phase separation but rather facilitates Y6 migration to the BH

89 ed in a nucleophilic addition reaction after separation by reverse-phase C18 at acidic pH.

90 ral translocation along dsDNA and DNA strand separation by the ThM motif, revealing an unconventional

91 a reduction of the interplanar pai-stacking separations by ca. 19-22% before the critical reaction d

92 n, we demonstrate that precise solute-solute separation can be achieved using polyamide membranes for

93 ontributions of disordered proteins to phase separation can be discerned by computing or measuring se

94 e formation, whereby HPCCC showed a superior separation capacity to fractionate minor metabolites com

95 simultaneously guides the injection end of a separation capillary into the HF lumen for automated CE

96 stream, the dialysate was injected into the separation capillary through a flow-gating interface.

97 Recently, plasma separation cards (PSCs) have become available and, thoug

98 tation of a fluorescent layer underneath the separation chamber-fluorescent sublayer-based visualizat

99 15 mum) efficiently dissipates heat from the separation channel, mitigating the deleterious effects o

100 Different charge-separation, charge-transfer, and charge-recombination ro

101 The detector combines a separation column and a micromachined chemoresistive gas

102 recently have the mechanisms that drive this separation come into view.

103 onsolidation, spatial navigation and pattern separation, complex functions often impaired in individu

104 tigation of the pK(a) values by changing the separation conditions in electrochemistry-capillary elec

105 Electrophoretic separations conventionally rely on chromogenic, fluoroge

106 xtractions are normally followed by off-line separation/detection, it is advantageous to couple extra

107 interactions in this system by changing the separation distance between the graphene and a metallic

108 omers approach bulklike characteristics at a separation distance of ~5 nm, the dynamics differ consid

109 odium citrate and purification with membrane separation, eco-friendly alternatives to conventional pr

110 h area and migration time as well as similar separation efficiencies.

111 The separation efficiency of each technique has been critica

112 ination of the retention factor by measuring separation efficiency of individual proteins at differen

113 chromatography offers high sample capacity, separation efficiency, and precision under repeatability

114 Dynamic phase separation enables rapid mobilization of this protein po

115 key PTM connectivity, which condensed-phase separations failed to achieve.

116 Our patient presented with delayed cord separation, failure to thrive, and sepsis.

117 This article introduces a gel-based separation-free point-of-care (POC) device for whole blo

118 understand this phenomenon, we study charge separation from triplet excitons in polycrystalline pent

119 reductant, preventing difficult postreaction separations, given the gaseous nature of the resulting c

120 d derivative leads to efficient triplet pair separation, giving rise to an overall triplet yield of 1

121 Hydrocarbon separations have traditionally relied predominantly on c

122 ker, revealed a spatial and lineage-specific separation in cell-cycling behaviour.

123 itors and improve our understanding of phase separation in cells and membraneless organelles.

124 e solutions and the driving forces for phase separation in concentrated solutions.

125 dynamics simulations have investigated phase separation in model membranes at the coarse-grained leve

126 Among the factors promoting cell separation in mutant cells was a protein of previously u

127 icularly focused on the role played by phase separation in the formation of molecule aggregates that

128 its the difference in densities of cells for separation in transparent microfluidic channels and impl

129 these positions dramatically enhances phase separation in vitro and decreases fluidity of phase-sepa

130 3 CTD aggregation and/or liquid-liquid phase separation in vitro GRN-3 promoted insoluble aggregates

131 of high-resolution ion mobility spectrometry separations in structures for lossless ion manipulations

132 e nano-LC system for high-pH and low-pH RPLC separations in top-down proteomics.

133 Here, we demonstrate that gas-phase peptide separation instead of LC enables fast proteome analysis.

134 attempts to make them often result in phase separation into binary compounds.

135 le ring that drives equatorial furrowing and separation into the two daughter cells.

136 Liquid phase separation into two or more coexisting phases has emerge

137 average classification accuracy for pairwise separation is 99% with just over 30 samples in each burn

138 no fluorescence changes, showing that strand separation is a specificity determinant.

139 retinal loci at further eccentricities whose separation is below the upper disparity limit.SIGNIFICAN

140 xceptional performance of MFM-300 for xylene separation is confirmed by dynamic ternary breakthrough

141 heir binding and subsequent control of phase separation is critical to designing better pathogen inhi

142 Phase separation is crucial for selective surfactant formation

143 thus, a proteome-wide understanding of phase separation is currently lacking.

144 Liquid-liquid phase separation is emerging as the universal mechanism by whi

145 trated within the condensates, whereas phase separation is overall regulated by the stoichiometry of

146 cally-motivated modeling revealed that phase separation is suppressed by a "magic-number effect" whic

147 ) condenses with RNA via liquid-liquid phase separation (LLPS) and that N protein can be recruited in

148 hat SGs assemble through liquid-liquid phase separation (LLPS) arising from interactions distributed

149 ere, we uncover a common liquid-liquid phase separation (LLPS) behavior shared by these disease-assoc

150 sate, whose formation by liquid-liquid phase separation (LLPS) facilitates the initial steps of ribos

151 racting sites, undergoes liquid-liquid phase separation (LLPS) in vitro.

152 of NEAT1 promotes TDP-43 liquid-liquid phase separation (LLPS) in vitro.

153 Liquid-liquid phase separation (LLPS) of proteins underlies the formation of

154 in (N-protein) undergoes liquid-liquid phase separation (LLPS) with viral RNA.

155 ndensates, that form via liquid-liquid phase separation (LLPS)(1,2).

156 Biomolecules can undergo liquid-liquid phase separation (LLPS), forming dense droplets that are incre

157 agents, tau can undergo liquid-liquid phase separation (LLPS), forming highly dynamic liquid droplet

158 at tau readily undergoes liquid-liquid phase separation (LLPS), here we explored the relationship bet

159 hey are likely formed by liquid-liquid phase separation (LLPS), they have a differential sensitivity

160 ular condensates through liquid-liquid phase separation (LLPS).

161 teins and are formed via liquid-liquid phase separation (LLPS).

162 Then, the separation mechanisms of membranes are covered, such as

163 onolithic columns have been evaluated as the separation media for analysis of peptides using supercri

164 d centrifuge devices (high volume) or plasma separation membranes (PSM) coupled with lateral flow tes

165 applications including fuel cells and oxygen separation membranes.

166 y electrophoresis (CE) is a highly efficient separation method capable of handling small sample volum

167 ble sample stabilization and chromatographic separation methods convert them to oxyanions.

168 uch work remains to optimize reliable online separation methods that are compatible with native MS an

169 ion of SPE with other sample preparation and separation methods.

170 m was made to cover the most popular peptide separation modes applied in proteomics: reversed-phase (

171 llector method to any liquid chromatographic separation, no matter how complex.

172 The separations occur over a small footprint, happen quickly

173 ectrum into two bands with an average energy separation of 80 meV.

174 cessfully demonstrate this approach with the separation of a mixture of 10 and 15 mum particles.

175 We demonstrate for the first time the SFC-MS separation of a mixture of polypeptides carried out usin

176 rom precision leading to the optimal kinetic separation of all three xylene isomers at room temperatu

177 lysis of coauthor relationships identified a separation of bat ecologists and infectious disease rese

178 lliculin acts as a gatekeeper that maintains separation of blood and lymphatic vessels by limiting th

179 The separation of C(2) H(2) /CO(2) is particularly challengi

180 organic framework (MOF) for highly efficient separation of C(2)H(4) from a binary C(2)H(6)/C(2)H(4) a

181 is used in conjugation with immuno-magnetic separation of cancer cells, and is capable of differenti

182 lts provide critical insights into the phase separation of cellular membranes and, more generally, tw

183 l biology and to test concepts such as phase separation of chromatin.

184 tion of a microtubule spindle for the proper separation of chromosomes in mitosis and meiosis.

185 The present work discusses a method for separation of components of charantin namely STG and BSG

186 s, a multivariate technique, which shows the separation of cortisol in a linear fashion with respect

187 Here, we exploit the aqueous two-phase separation of dextran-in-PEG emulsion micro-droplets for

188 This yielded separation of function alleles that were functional for

189 SCs and describe new heterogeneity, enabling separation of functionally distinct human satellite cell

190 High-resolution separation of glycan isomers differentiating from positi

191 e routine analysis of biological samples for separation of glycopeptides and glycans.

192 l promise as adsorbents for highly efficient separation of hydrocarbons.

193 choroidal elevation and a double-layer sign (separation of hyperreflective retinal pigment epithelium

194 Phase separation of intrinsically disordered proteins (IDPs) c

195 on mobility spectrometry (FAIMS) enables the separation of ions on the basis of their differential mo

196 The outlined methodological approach allows separation of K(+)-induced G-quadruplex formation and su

197 Separation of malonyl-CoA production from its site of ut

198 contribute to the co-occurrence or physical separation of manganese and arsenic in groundwater syste

199 t electrodes, experimentally demonstrate the separation of particles and antibodies from dyes, and pr

200 aspects of this pandemic is the irremediable separation of patients from their families at the end of

201 operating characteristics (AUROC) curve for separation of patients with UC from healthy controls was

202 -4), as a highly efficient media for on-line separation of phenolic acids and flavonoids, which were

203 Separation of polydisperse, single-charged analytes in t

204 re membraneless compartments formed by phase separation of polyelectrolyte solutions.

205 o-Archimedes levitation (MagLev) enables the separation of powdered mixtures of illicit drugs (cocain

206 It requires high-capacity separation of proteoforms before mass spectrometry (MS)

207 The separation of rare-earth ions from one another is challe

208 for applications related to the storage and separation of small molecules and the incorporation of t

209 a proof-of-concept for the molecular sieving separation of species with similar sizes (CO(2)/N(2) and

210 mes of individual plants allowed statistical separation of species, native and invasive populations o

211 fraction dramatically improved signal, while separation of subnucleosomal reads post-sequencing did n

212 These findings suggest that phase separation of tau may facilitate the formation of non-fi

213 A stochastic model demonstrated the separation of TF inputs is sufficient to explain these f

214 (4) facilitated rapid and convenient for the separation of the adsorbent from sample solutions.

215 dic pH or crown ether leads to the triggered separation of the bridging units associated with the res

216 ly to be contact independent due to physical separation of the cuticle from DBL-1-expressing cells in

217 lysis of mixtures necessarily requires prior separation of the individual components.

218 To gain better separation of the Mn centers and prevent energy transfer

219 clude near-bistable isomers and an increased separation of the n -> pai* bands between the trans- and

220 ed set of conformational states with minimal separation of the nucleotide-binding domains in the inwa

221 rge state distribution, and (4) symmetry and separation of the peak.

222 iography (DSA) tubogram revealed rupture and separation of the PEG tube into two fragments.

223 showed a stable baseline and high-resolution separation of the standards.

224 t those for speed, increase with the spatial separation of the stimuli.

225 Successful separation of three sugars with direct detection is also

226 The spatial separation of trajectories from nanometers to microns an

227 We further demonstrate electrokinetic separation of two anionic fluorophores within the drople

228 The separation of xylene isomers (para-, meta-, orth-) remai

229 markable adsorption of alkynes and efficient separations of acetylene/ethylene, propyne/propylene, an

230 ds on the ability of SLIM to obtain improved separations of complex mixtures with high sensitivity.

231 ared to their soluble counterparts, the site separations of immobilized PALs retain higher activity a

232 properties of the rare-earth ions impact the separations of light/heavy and selected heavy/heavy bina

233 as short as 5.4 milliseconds and inter-flash separations of tens of milliseconds, with typical terres

234 combined CRISPR gene editing and engineered separation-of-function mutants to define how CENP-F cont

235 Here we introduce separation-of-function mutations into the SUZ12 subunit

236 ss for ion mobility spectrometry (IMS)-based separations on the order of 100 milliseconds.

237 commercial MS platforms typically involve a separation or cleanup prior to analysis and are too slow

238 nd B2 was well preserved without any sign of separation or cracking.

239 of analytes in a single experiment, without separation or pre-treatment before data acquisition.

240 ch component in a mixture sample without any separation or purification, which could not be achieved

241 result from a process of liquid-liquid phase separation orchestrated by the epigenetic marking and op

242 s, which have well-resolved spatial-temporal separation owing to the hypebolicity of effective permea

243 convolutional neural networks to predict gas separation performance (using CO(2) /N(2) as a test case

244 The separation performance of this material is driven by pai

245 specific steric exclusion process, or even a separation pin, unwinding is achieved via a "dam-and-div

246 Liquid-liquid phase separation plays an important role in cellular organizat

247 While the overall C(2)H(6)/C(2)H(4) separation potentials have not yet surpassed peroxo-MOF-

248 ities of high data acquisition speed or high separation powers in combination with the increased sens

249 II, investigating energy transfer and charge separation processes.

250 the diverse function of RNA in tuning phase-separation propensity up or down, altering viscoelastic

251 sttranslational modifications and its "phase-separation" properties.

252 We developed a rapid and robust separation protocol for trace silver extraction in the p

253 e second chiral center and subsequent chiral separations provided all four stereoisomers, whereby the

254 calls for the development of tools for rapid separation, quantification, and sizing of nanoparticles

255 on), B(hf2) = (0.24 +/- 0.01) mT (hole); the separation rates for singlet and triplet polaron pairs:

256 and EtOH as a green solvent, ease of product separation, readily available and inexpensive aldehydes,

257 t the spatial proximity resulting from phase separation reduces the requirement for motif specificity

258 t occurs during PISA leads to enhanced phase separation relative to that achieved using solution-cast

259 Numerical solutions show that such scale separation remains in the strongly nonlinear turbulent r

260 Additionally, we showed the separation resolution could be improved by the use of an

261 udies of bulk SOM, but also use a consistent separation scheme across studies.

262 Numerous diverse SOM separation schemes are currently used, making cross-stud

263 PicoLC-MS extends the limit of separation science and is expected to be a powerful tool

264 tadiene mixtures, with unprecedented dynamic separation selectivities of 100, 92, and 83, respectivel

265 ervals between end of oxidation and start of separation showed that these were hydrated over time.

266 Although the omission of chromatographic separation simplifies the analytical process, extra proc

267 report a simple but effective enrichment and separation strategy for top-down proteomics of endogenou

268 of cross-links, here, we present a gas-phase separation strategy using high-field asymmetric waveform

269 gy-efficient approaches to propylene/propane separation such as molecular sieving are of considerable

270 After DMS separation, tandem mass spectrometry (MS/MS) analyses of

271 The development of novel high-resolution separation techniques is crucial for advancing the compl

272 film layers or the fractions from polyolefin separation techniques, such as gel permeation chromatogr

273 , we address a major challenge for oil-water separation technology.

274 ted and operationally simple chromatographic separation that is demonstrated to be applicable to a va

275 We present a new concept for on-chip separation that leverages bidirectional flow, to tune th

276 of the ADC and a subsequent 31.5 m SLIM IMS separation, the various drug-bound antibody species coul

277 tum between two nucleons increases and their separation thereby decreases, we observe a transition fr

278 volumes of plasma with high efficiency in a separation time on par with that of state of the art tec

279 lear condensates through liquid-liquid phase separation to compartmentalize its DNA-binding cofactor

280 tic activity, i.e., light absorption, charge separation, transfer of charges to the reaction centres

281 The TEE for ion separation using flow-through electrodes was compared to

282 show that the BSI signal is sensitive to the separation voltage through the Kerr mechanism.

283 ficiency of individual proteins at different separation voltages (i.e., different linear velocities).

284 The separation was achieved in 13 min using the C18 column b

285 l PVD on 16.5-mm scans because vitreoretinal separation was localized to the mid periphery.

286 A baseline separation was obtained using an Acquity HSS T3 C18 colu

287 Component separation was required in 43.6%, and a panniculectomy w

288 Lateral dimensions and separation were resolved down to 0.50lambda for hard obj

289 itions, degradation that occurs due to phase separation when mixed halides are employed.

290 g experiments were possible by leveraging IM separation, which enabled us to separate and analyze CID

291 to undergoing concentration-dependent phase separation, which on aging is rationalized in a decrease

292 ignatures characteristic of electronic phase separation, which we attribute to emergence of strongly

293 as an electron acceptor to facilitate charge separation, while holes could transfer to CuO(x) to avoi

294 ed beads enable efficient mixing and spatial separation, while TF-labeled semiconductor quantum dots

295 directions based on a molecular approach to separations will emerge based on the ideas, technologies

296 an serum, when performing the immunomagnetic separation with antiCD81 modified magnetic particles and

297 However, the coupling of nanoparticle separation with chemical characterization bears potentia

298 s applied in proteomics: reversed-phase (RP) separations with different pH, hydrophilic interaction l

299 An ideal material for C(2)H(6)/C(2)H(4) separation would simultaneously have the highest C(2)H(6

300 These condensed states are formed by phase separation, yet little is known about how material prope