ライフサイエンスコーパス: sieve

1 tity that acts as a size-dependent molecular sieve.

2 est known classical method, the Number Field Sieve.

3 pproaches: spectral count, spectra index and SIEVE.

4 prediction and show that the PCM acts like a sieve.

5 ich is an essential step of the Number Field Sieve.

6 candidates for tunable atomic and molecular sieves.

7 ick silicates that can function as molecular sieves.

8 ample, as structural scaffolds and molecular sieves.

9 r boron in a suite of borosilicate molecular sieves.

10 ed and hence more easily retained on the top sieves.

11 requiring electronically sensitive molecular sieves.

12 , PST-19 (SBS), and ZnAPO-88 (MER) molecular sieves.

13 rations in these cation-controlled molecular sieves.

14 hybrid materials that are excellent quantum sieves.

15 e interconnected ultramicroporosity for size sieving.

16 inement and achieve accurate and tunable ion sieving.

17 thermodynamics and/or kinetics and molecular sieving.

18 eparation functionality beyond pure physical sieving.

19 cations for catalysis, storage, or selective sieving.

20 otential of porous carbon nanotubes for atom sieving.

21 quid-phase synthesis and selective molecular sieving.

22 n of sample preconcentration (onto Molecular Sieve 5A) at a flow rate of 200 mL min(-1).

23 eavors are pursued to target ideal molecular sieves among diverse porous materials, over the past sev

24 suggest an important role for neutralization sieve analyses as an informative component of comprehens

25 emonstrates proof-of-concept that phenotypic sieve analyses can elucidate mechanistic correlates of i

26 erall efficacy, later correlates of risk and sieve analyses generated the hypothesis that the DNA/rAd

27 ata access tool for exploring the results of sieve analyses performed on four major preventive HIV-1

28 development of novel methodology for future sieve analyses.

29 Sieve analysis also corroborated a genetic signature of

30 Neutralization sieve analysis compares the neutralization sensitivity o

31 To design an adequately powered primary sieve analysis for AMP, we modeled VRC01 neutralization

32 We performed a T-cell-based sieve analysis of breakthrough viruses in the RV144 tria

33 immune responses can be investigated through sieve analysis of HIV-1 breakthrough infections (infecte

34 e correlates of lower HIV-1 risk and a virus sieve analysis revealed that, despite lacking overall ef

35 A secondary objective of AMP utilizes sieve analysis to investigate how VRC01 prevention effic

36 e of the vaccine itself, a technique called 'sieve analysis', one can identify functional specificiti

37 In a sieve analysis, high capture and low capture were distin

38 Here, we conducted a T-cell-based sieve analysis, which compared the genetic sequences of

39 ressed HLA A*02, an allele implicated in the sieve analysis.

40 top features will be advanced to the primary sieve analysis.

41 rning method, for advancement to the primary sieve analysis.

42 tion stage, which employs a carbon molecular sieve and an adsorption/thermal desorption cycle, can in

43 he outer membrane as an unspecific molecular sieve and indicate a higher degree of selectivity and re

44 that the C-terminus functions as a molecular sieve and stabilizer of the oligomeric MscL structure as

45 tions of albuterol sulfate and budesonide in sieved and milled lactose, respectively, were dispersed

46 type photocatalysts, such as Ti-Si molecular sieves and carbon quantum dots (CQDs), are also briefly

47 pect to pure micro- and mesoporous molecular sieves and other hierarchical zeolites are critically an

48 shape selectivity in the pores of molecular sieves and the polarisation effect at the metal-support

49 s as the fundamental elements for active ion sieving and artificial photosynthesis on synthetic nanof

50 However, their use in ion sieving and desalination technologies is limited by a pe

51 Molecular sieving and differences in diffusivities were identified

52 tive manufacturing, both during post-process sieving and embedded within built components.

53 ed boluses were measured by using mechanical sieving and laser diffraction (primary outcome).

54 r later values are consistent with molecular sieving and transient binding of dissociated proteins.

55 s, alkali-exchanged stannosilicate molecular sieves, and amorphous TiO2-SiO2 coprecipitates.

56 lications like membranes, sensors, molecular sieves, and optoelectronics.

57 ions of barrier regulation, transendothelial sieving, and transport of fluid, solutes, and particulat

58 Crystalline molecular sieves are used in numerous applications, where the prop

59 opylene/propane separation such as molecular sieving are of considerable importance for the petrochem

60 aration, liquid molecule separation, and ion sieving are summarized.

61 ges of utilizing phospholipid pseudogels for sieving are the ease with which they are introduced into

62 re density and altered pore structure in the sieve areas associated with impaired phloem function.

63 rrelation with end wall types, the number of sieve areas per end wall was found to scale with SE leng

64 ular transport, harbours specific junctions, sieve areas, between the conducting cells.

65 with its function in the elaboration of the sieve areas, CHER1 has a sustained, polar localization i

66 framework related to the biogenesis of these sieve areas.

67 This leads to fast DNA sieving as demonstrated here on the capillaries of 750 n

68 s a new generation of selective membrane for sieving atoms, ions and molecules.

69 rest mediated passively by the mechanical 3D-sieve barrier of the LN subcapsular sinus (SCS).

70 COFs are intriguing candidates for molecular sieving based on selective host-guest interactions.

71 described here provides a new innovation to sieving-based capillary separations.

72 Extrudates were milled and sieved before phytochemical analysis.

73 loss of ultrafiltration capacity and sodium sieving before the onset of overt EPS.

74 but, if immersed in water, act as molecular sieves, blocking all solutes with hydrated radii larger

75 eparate hydrogen isotopes by kinetic quantum sieving, but high separation selectivity tends to correl

76 of all time, mysticetes depend on keratinous sieves called baleen to capture enough small prey to sus

77 separation of gas mixtures through molecular sieving can enable separation by molecular size or shape

78 be exposed, to achieve competitive molecular sieving capabilities.

79 pillar arena in which animals can crawl, (2) sieve channels that separate progeny and prevent the los

80 Without modification of sieving characteristics, these membranes can be made exc

81 ) ) separation through its precise molecular sieving characteristics.

82 ects of manganese oxide octahedral molecular sieve chitosan microspheres (Fe3O4@OMS-2@CTS) on anaerob

83 eate multi-layer asymmetric carbon molecular sieve (CMS) hollow fiber membranes with excellent gas se

84 Carbon molecular sieve (CMS) membranes are candidates for the separation

85 yimide-derived hollow fiber carbon molecular-sieve (CMS) membranes for hydrogen and ethylene separati

86 Carbon molecular sieve (CMS) membranes show exceptional separation perfor

87 s albumin overload, we quantified glomerular sieving coefficients (GSC) and PT uptake of Texas Red-la

88 Analysis of sieving coefficients revealed 80% reduction in cytokines

89 ively resolved and quantified with capillary sieving compared to free-solution capillary electrophore

90 s a typical silicoaluminophosphate molecular sieve, constitutes instead a new family of inorganic-org

91 essure ethylene over a pure-silica molecular sieve containing framework tin (Sn-Beta) to produce the

92 r in the presence of a pure-silica molecular sieve containing framework zirconium (Zr-Beta) for 6 h t

93 examples of hydrothermally stable molecular sieves containing extra-large pores.

94 tected in high molecular weight fractions of sieved dermal extracts and visualized by electron micros

95 rks (COFs) are good candidates for molecular sieves due to the chemical diversity of their building b

96 rabinoxylan (AX) and starch retention on the sieves, due to physical incorporation of AX and starch i

97 and establish the stoichiometry of a 'triple-sieve' editing complex for the first time.

98 Here, we report a robust neutralization sieve effect in a nonhuman primate simian immunodeficien

99 Though we hypothesized that the observed sieve effect indicated postacquisition T-cell selection,

100 The quantum sieving effect between D2 and H2 is examined for a serie

101 r limitation), and even inhibited (molecular-sieving effect); conversion of the intermediate in the v

102 as a platform for rapid reinterpretation of sieve effects and as a portal for organizing and sharing

103 velopment, and vaccine protection, including sieving effects on breakthrough virus strains.

104 pared to chloride as well as significant ion sieving effects when sulfate is the only anion present.

105 lity using free solution CE or by size using sieving electrophoresis of SDS complexes.

106 is study dealt with the visualization of the sieve element (SE) cytoskeleton and its involvement in e

107 d can be used for immmunological analysis of sieve element anatomical characteristics.

108 tomic force microscopy indicates that phloem sieve element cell walls have a lower indentation modulu

109 a glycan epitope that is specific to phloem sieve element cell walls in several systems.

110 Remarkably, CLas was present in both mature sieve element cells and nucleated nonsieve element cells

111 uch as sugars are transported through phloem sieve element cells in plants.

112 s spectrometry-based proteomics of exudates, sieve element contents and microdissected stem tissues e

113 proteins (about 10%) were shared between the sieve element contents of FP and EFP, and enriched Gene

114 We show that sieve element differentiation involves enucleation, in w

115 iant, interferes not only with commitment to sieve element fate but also with the formative sieve ele

116 etermines cellular commitment to protophloem sieve element fate, with OPS acting as a positive, quant

117 rs to be a secondary effect of discontinuous sieve element files and subsequent systemically reduced

118 copy revealed fewer PD at the companion cell-sieve element interface in mutant phloem tissue, providi

119 d three-dimensional reconstruction to follow sieve element morphogenesis in Arabidopsis.

120 Both types are encoded by members of the sieve element occlusion (SEO) gene family, which compris

121 eve element fate but also with the formative sieve element precursor cell division that creates proto

122 In the absence of the formative sieve element precursor cell division, metaphloem identi

123 tophloem in Arabidopsis roots by locking the sieve element precursor cell in its preceding developmen

124 sely with plant height because of a shift in sieve element structure along the length of individual t

125 AVP1 localized at the plasma membrane of the sieve element-companion cell complexes functions as a sy

126 ssion of the transporter was targeted to the sieve element-companion cell complexes of the leaf phloe

127 ons, we identified the small heat shock-like SIEVE ELEMENT-LINING CHAPERONE1 (SLI1).

128 r subsequent active uptake into cells of the sieve element/companion cell complex.

129 n of wall ingrowths adjacent to cells of the sieve element/companion cell complex.

130 adial growth occurs around early protophloem-sieve-element cell files of the root procambial tissue.

131 In the sieve elements (SEs) of the phloem, carbohydrates are tr

132 the vRNA-dependent RNA polymerase in phloem sieve elements and in xylem vessels.

133 Phloem sieve elements and xylem vessels from Potato virus X-inf

134 lls, guard cells, phloem companion cells and sieve elements are clearly described, this is not the ca

135 Given that phloem sieve elements are enucleate and lack translation machin

136 o be able to travel between plant organs via sieve elements as a putative long-distance signaling mol

137 rhizus as a model to study nacreous walls in sieve elements by standard and in situ confocal microsco

138 Adapted for effective transport, sieve elements develop as enucleated living cells.

139 Thus, sieve elements differentiate through a specialized autol

140 ehavior indicates that the GPA stylets found sieve elements faster when feeding on the adf3 mutant co

141 Suc unloading from de-energized protophloem sieve elements in meristematic zones may be mediated by

142 , we were able to locate the same FP-labeled sieve elements in semithin and ultrathin sections.

143 nated LM26, binds to the cell wall of phloem sieve elements in stems of Arabidopsis (Arabidopsis thal

144 Over 90% of sieve elements in tissue sections processed for microsco

145 Sieve elements in whole, live plants that were actively

146 fic loss of proteins from companion cells to sieve elements may explain the plethora of macromolecule

147 the GPA fed for a more prolonged period from sieve elements of adf3 compared to the wild-type plant.

148 morphine detected corresponding antigens in sieve elements of the phloem, as described previously fo

149 t of florigen from phloem companion cells to sieve elements to induce flowering.plantcell;31/10/2475/

150 ly function in Suc retrieval into metaphloem sieve elements to maintain a high turgor to drive sympla

151 owed that SLI1 is confined to the margins of sieve elements where it lines the parietal layer and col

152 Puncturing of transporting sieve elements with micropipettes triggered the rapid (<

153 entration gradient that peaks at protophloem sieve elements, and activates gene expression that promo

154 In addition, once they found the sieve elements, the GPA fed for a more prolonged period

155 quired for FT export from companion cells to sieve elements, thus affecting FT transport through the

156 ridine biosynthesis appears to occur only in sieve elements, whereas conversion of thebaine to morphi

157 , other than SbSUT4, were immunolocalized to sieve elements, while for elongating and recently elonga

158 c movement of mRNA from companion cells into sieve elements.

159 her than structural features of transporting sieve elements.

160 plasmodesmata from mesophyll cells into the sieve elements.

161 be involved in the rapid sealing of injured sieve elements.

162 nctions to promote symplastic transport into sieve elements.

163 have been considered a diagnostic feature of sieve elements; they represent a conundrum, though, in t

164 semble measurements and electrophysiological sieving experiments show that the open-diameter of the c

165 Crude OP was fractionated in a 2-mm sieve (F1: > 2 mm; F2: < 2 mm) and then micronized (300

166 This process produces selective molecular sieve films that are as thin as 100 nm and exhibit recor

167 n; however, identifying a suitable molecular sieve for membrane development is still an ongoing chall

168 es with the optimal size and geometry act as sieves for blocking the biomolecules from inhibiting the

169 ls of graphene are shown to act as efficient sieves for hydrogen isotopes pumped through graphene ele

170 er the past several decades, ideal molecular sieves for the separation and purification of light hydr

171 xposure, the hydrogel toggles from molecular sieving for size-based separation to a covalent immobili

172 to a further size fractionation to isolate "sieved fragmented products" (SFP) that are representativ

173 paradigm shift in conceptualizing molecular sieves from conventional ordered frameworks to disordere

174 nds with potential applications in molecular sieving, gas sequestration, and catalysis.

175 nctional materials such as tunable molecular sieves, gated membranes and controlled-release nanoconta

176 ion of antibody into and along the molecular sieving gel requires that the probe must traverse throug

177 A thermally responsive sieving gel was recently demonstrated to separate DNA, w

178 technique for fabrication of PAGE molecular sieving gels in PDMS microchannel networks.

179 Realization of ideal molecular sieves, in which the larger gas molecules are completely

180 discovered a family of mesoporous molecular sieves including discrete structures - MCM-41 (hexagonal

181 The sediment was sieved into 7 grain size fractions that each exhibited d

182 Finally, when combined with the method of sieves, it can be used to perform model selection with n

183 ilter for transport of large molecules and a sieve-like filter for diffusion of small molecules (<9 n

184 x from surface-attached biofilms generates a sieve-like network that captures cells and other biomass

185 The endothelial glycocalyx, a sieve-like structure located on the luminal surface of a

186 where tethering loses its effect, features a sieve-like structure of bundles and frequent cross-links

187 extraction (LPME) was performed with a metal sieve linked double syringe (MSLDS) system, which elimin

188 wildtype (WT) parent were grown in tubes of sieved (<250 mum) sandy loam soil under two different wa

189 Molecular sieving materials are widely regarded as the next-genera

190 A high concentration of sieving matrix (1.8% w/v HEC) was introduced at one end

191 a 10 degrees C temperature change, forming a sieving matrix above 24 degrees C.

192 sotachophoresis method in combination with a sieving matrix and ionic spacer was used to perform in-l

193 A electrophoresis through a novel artificial sieving matrix based on the highly regular submicrometer

194 The gel layer functions as both a molecular sieving matrix during PAGE and a blotting scaffold durin

195 nti-convective medium and not as a molecular sieving matrix.

196 degrees C using borate cross-linked dextran sieving matrix.

197 Both the sieving mechanism of the membrane and chelation of lead

198 However, most polymeric molecular sieve membranes are based on a few solution-processable

199 We created free-standing carbon molecular sieve membranes that translate the advantages of reverse

200 y for the preparation of polymeric molecular sieve membranes with hierarchical and tailorable porosit

201 device channels to atomically thin molecular sieve membranes, and their performance is highly depende

202 rove the separation performance of molecular-sieve membranes.

203 er membranes and traditional rigid molecular-sieve membranes.

204 ltration and then transformed into molecular sieving membranes by two sequential hydrothermal treatme

205 lms are formed and demonstrated as molecular-sieving membranes for selective gas separation.

206 Ultrathin, molecular-sieving membranes have great potential to realize high-f

207 are fabricated into thin films and molecular-sieving membranes.

208 Molecular sieving metal-organic framework (MOF) membranes have gre

209 methods than with a prior analysis using the SIEVE method with the same data.

210 ld nanoparticles operated in a portable nano-sieving microfluidic system (NS-MFS).

211 The 4 angstrom molecular sieves (MSs) were added to improve CO(2) capture and fac

212 ompatible linear gels required for capillary sieving must be replaced for each run using high pressur

213 entrating device based on nano-electrostatic sieving (NES) mechanism that is facilitated by multi-nan

214 croarray, 52 correspond to a tight molecular sieve of hantavirus probes covering a large genetic land

215 Size-exclusive sieving of CO2 over CH4 and N2 has rarely been achieved.

216 by exploring theoretically the efficiency of sieving of different conformers of propane through the h

217 udo-ash was manufactured through milling and sieving of eruptive deposits with different bulk composi

218 ultrafast water transport, precise molecular sieving of gas and solvated molecules shows great promis

219 n kinetics based separation and/or molecular sieving of gases and vapors.

220 cy, may allow ultrafast and highly selective sieving of gases, liquids, dissolved ions and other spec

221 el demonstrated that 20-30% nanogel supports sieving of proteins ranging from 20 to 80 kDa.

222 able size that segregated due to diffusional sieving of small, mobile M1-AQP4-enriched arrays into la

223 rmed by SARIP exhibits highly size-dependent sieving of solutes, yielding a step-wise transition from

224 40 mM, rt, CH2Cl2, piperidine/AcOH/molecular sieves) of a dihydrodipyrrin-carboxaldehyde (AD half) an

225 talline manganese based octahedral molecular sieve (OMS) nanowires on silicon substrates, and (iii) t

226 , a dynamic and highly selective filter that sieves on the basis of molecular size and electrical cha

227 on reaction, promoted by activated molecular sieves, on chiral cyclic sulfamidates, both N-protected

228 The development of novel molecular sieves opens opportunities in the development of more se

229 encapsulation, the introduction of molecular sieving or stimuli-responsive "auxiliary" functionalitie

230 48 nm has a sufficiently small pore size to sieve out surfactant molecules from the feed solution vi

231 r by analysing sieve tube anatomy, including sieve plate geometry, using recently developed preparati

232 The sieve plate plugging structures of host plants were show

233 er the conductance of sieve tubes, including sieve plate pores, is sufficient to allow pressure flow.

234 ved, and how the continuous rearrangement of sieve plates affects the structure of fenestrae within t

235 position, size, and number of fenestrae and sieve plates using four-dimensional AFM (X, Y, Z, and t)

236 ecially, the formation and closing of entire sieve plates were observed, and how the continuous rearr

237 sustained, polar localization in the forming sieve plates.

238 he phloem cells specifically adjacent to the sieve pores.

239 a are attributed to the in-parallel molecule sieving process as conducted by the many nanochannels fo

240 n unintentionally mix other foods during the sieving process.

241 to maximize efficiency during the molecular sieving process.

242 tense interest due to their unique molecular sieving properties combined with fast permeation.

243 We attribute organic solvent permeation and sieving properties to randomly distributed pinholes inte

244 failure of the glomerular filtration barrier sieving properties, or different collagen fragments, sug

245 hin microporous polymers and their molecular sieving properties.

246 ure ( approximately 8%)] and milled (70 mesh sieve) pumpkin flesh matrix increased SC-CO(2) extractio

247 Capillary separations based on sieving rather than electrophoresis had similar precisio

248 enzyme concentration, addition of molecular sieves, reaction temperature and time on the production

249 al crystals for DNA separation in the Ogston sieving regime do not require exquisite control over the

250 n of starch and AX on the smaller and larger sieves, respectively.

251 tablish a proof-of-concept for the molecular sieving separation of species with similar sizes (CO(2)/

252 Therefore, efficient sieving separation of this ternary mixture was realized.

253 rates decrease exponentially with decreasing sieve size but water transport is weakly affected (by a

254 9.8 A to 6.4 A are demonstrated, providing a sieve size smaller than the diameters of hydrated ions.

255 flour with attrition milling machine (0.5mm sieve size).

256 challenging, since the gel must effectively sieve small proteins while permitting effective probing

257 re grown in a replicated pot experiment with sieved soil (<2 mm), with unplanted soil as control for

258 presented that uses a negatively pressurized sieve stack and purified water to preserve plastic surfa

259 ed nanofilter arrays served as the molecular sieve structures to conduct a continuous size-based anal

260 ape selectivity due to the lack of molecular sieving structures.

261 Membranes made from polymeric molecular sieves such as polymers of intrinsic microporosity (pore

262 site, potentially functioning as a molecular sieve that restricts the size of permeable substrates.

263 They also act as molecular sieves that isolate the virus genome from host defense m

264 es is that, to compete with the Number Field Sieve, the quantum SAT solver would need to be superpoly

265 In the presence of molecular sieves, the ester production increased to 62.9% in tert-

266 uccessful synthesis of a specified molecular sieve through the use of an OSDA that was predicted from

267 flour for 60 seconds every 10 seconds after sieving through three types of flour sifter, constructed

268 pplication of alpha-hemolysin as a molecular sieve to differentiate nanostructures as well as the pot

269 veloped a rare variant-detection algorithm V-Sieve to screen for rare alleles in pooled DNA samples w

270 l, previously homogenized, freeze-dried, and sieved to 250 mum, with 50 mL of 40% (v/v) acetonitrile

271 ne mill, masa was dehydrated, pulverized and sieved to obtain NBCF; commercial nixtamalized blue-corn

272 n of PST-5, a new aluminophosphate molecular sieve, to PST-6 by calcination.

273 e transport as they grow taller by analysing sieve tube anatomy, including sieve plate geometry, usin

274 jor to minor veins; the volume of individual sieve tube and vessel members increases from minor to ma

275 uced the amplitudes of electrical signals in sieve tube cells.

276 increasing distance between source and sink, sieve tube conductivity and turgor increases dramaticall

277 ioration of osmotic stress, wounding-induced sieve tube occlusion, and possibly local defence respons

278 rding the nature of other metabolites in the sieve tube system (STS) at specific sites along the path

279 The anucleate sieve tube system of the angiosperm phloem delivers suga

280 Sap is driven through phloem sieve tubes by an osmotically generated pressure gradien

281 Thick glistening cell walls occur in sieve tubes of all major land plant taxa.

282 Long distance transport in plants occurs in sieve tubes of the phloem.

283 icroscopy, focusing on changes in functional sieve tubes that occur when prepared for microscopic obs

284 The key issue is whether the conductance of sieve tubes, including sieve plate pores, is sufficient

285 ssure-flow theory as they severely constrict sieve tubes.

286 sate, the first physisorbent to exhibit H(2) sieving under cryogenic conditions, could be a prototype

287 arger than 0.2 mm, being the diameter of the sieve used, were considered for the data analyses, resul

288 room air collected by passive sampler and in sieved vacuum dust (<150 mum).

289 The stability of the modified molecular sieves was monitored by (29)Si-MAS NMR, transmission ele

290 ariate analysis revealed that loss of sodium sieving was the most powerful predictor of EPS.

291 eding water-conduction nanochannels that can sieve water from small gas molecules such as hydrogen (H

292 imetic ion transport manipulation, molecular sieving, water treatment, and nanofluidic energy convers

293 Molecular sieves were found to have a considerable effect when use

294 be used, at least in principle, as molecular sieves where molecules smaller than the window size are

295 other cage-containing microporous molecular sieves, where some of the most industrially relevant zeo

296 Protein sieving, which is a fundamental tool in the biotechnolog

297 ite-type zeolite, the archetype of molecular sieves with cages and the most widely used as a catalyst

298 supports for metal catalysts, but molecular sieves with comparable structures-silicoaluminophosphate

299 nstrate exceptional performance as molecular sieves with high gas permeabilities and selectivities fo

300 We fabricated continuous molecular sieving ZIF-8 membranes in single and multiple poly(amid