ライフサイエンスコーパス: gel

1 a nanoscale cavitation to grow in water and gel.

2 -101, a mitomycin-containing reverse thermal gel.

3 e over a broad range while strengthening the gel.

4 an one hour with the borate-buffered dextran gel.

5 after a simple filtration on a pad of silica gel.

6 it forced blood to flow peripherally to the gel.

7 human MSCs (hMSCs) mixed with atelocollagen gel.

8 slope and linearity comparable to benchmark gels.

9 rable formation of large aggregates and weak gels.

10 ticellular processes in reconstituted fibrin gels.

11 the benchmark (2x) and negative control (3x) gels.

12 development of peroxide-free tooth whitening gels.

13 films deposited on soft polyacrylamide (PAA) gels.

14 index (61.29 vs 65.84) than Xanthosoma spp. gels.

15 form mixed-disulfide species on nonreducing gels.

16 ons leading to the formation of cross-linked gels.

17 ing capacity and a strength similar to dairy gels.

18 ith an example inspired by active biopolymer gels.

19 rbohydrate polymers [i.e. chitin-lignin (CL) gels].

20 on of affinity capture using membranes, Affi-Gel 10 resin or M-270 Dynabeads derivatized with AEBSA s

21 -equilibrium structures such as clusters and gels(5-7).

22 digestibility was obtained in Colocasia spp. gels (67.56% vs 70.91%), but they showed faster (higher

23 The photochemically activated combustion sol-gel a-IGZO TFTs on a mesa-structured polyimide show an a

24 During the immunoprobing stage, the gel acts as an immobilization scaffold for IEF-focused p

25 gh-amylose maize flour developed the firmest gel after cooking at 140 degrees C.

26 Normal maize and pulse flours formed hard gels after cooking at 120 degrees C, and high-amylose ma

27 The highly porous gels also had lower immunoassay background signal than t

28 anic acid (CAGE) to form a viscoelastic CAGE gel and sandwiched between two layers of a biodegradable

29 eased from a nucleoside-based supramolecular gel and sets the basis for the design of more tailored s

30 c, lubricating liquid film forms between the gel and surface that obeys elastohydrodynamic theory.

31 urate, which leads to the dissolution of the gel and the appearance of a liquid phase driven by weake

32 sure at two different expansion rates in the gel and water models.

33 l use rigid metal electrodes with conductive gels and aggressive adhesives, while requiring precise p

34 be spatially patterned to crosslink alginate gels and trap living cells.

35 d interconnected pores, conferring different gel (and solvent) dynamics.

36 by Coomassie or Periodic Acid-Schiff base in gels, and with proteomics.

37 25 to 70 degrees C, while the volumes of the gels are almost unchanged.

38 Gels are interesting prebiotic reaction media, combining

39 use a novel nucleoside-based supramolecular gel as a drug delivery system for proteins with differen

40 ed the physiological relevance of the native gel assays by showing that they can predict the cAMP-sig

41 gle-cell DNA or RNA into balls of acrylamide gel (BAGs).

42 ed agonist.CLR.RAMP.mG(s) quaternary complex gel band that was sensitive to antagonists.

43 Here, we have applied two gel-based approaches, pulse proteolysis and force-profil

44 f the entire network of SHR hearts combining gel-based fluorescent labelling of coronaries with a CLA

45 nergy transfer (FRET) peptide derived from a gel-based label-free proteomic approach (direct in-gel p

46 velopments and challenges for nanostructured gel-based materials for electrocatalysis applications ar

47 opriate, classic bacteriology, immunoassays, gel-based PCR and reverse transcriptase PCR, and quantit

48 and that these could be identified using non gel-based proteomic techniques.

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

50 A single PdNP-loaded gel bead can catalyse the Suzuki-Miyaura reaction, const

51 penetrating network or core-shell-structured gel beads-a rare example of a supramolecular gel formula

52 In this study, pasting and gelling behaviors of flours were investigated at heating

53 32%, respectively, while these values for CA/Gel/Beri nanofibers were 2.69 +/- 0.05 MPa, 56.93 +/- 1

54 of an OECT by incorporating an ion exchange gel between the active layer and the aqueous electrolyte

55 Importantly, the Gel-BSA-OHG substrate was found to be more wash-resistan

56 Finally, the scope of Gel-BSA-OHG substrate-based ELISA for clinical applicati

57 The stability and ELISA performance of Gel-BSA-OHG was evaluated in comparison to the conventio

58 our hypothesis using GelNP-based substrate (Gel-BSA-OHG) to adhere 8-hydroxy-2'-deoxyguanosine (8-OH

59 nriched with curcuminoid compounds (CUs) was gelled by adding 5% (w/w) saturated monoglycerides (MG),

60 trace amounts of quartz in amorphous silica gels by NMR spectroscopy was developed and tested on com

61 t that the rheological properties of protein gels can be enhanced by using amino acids, instead of po

62 ate and ultrasonic treatment favored the oil-gelling capacity and reduced oil loss by reducing the cr

63 ns or emulsions and macro hydrogels that are gel colloid type.

64 Unlike the hyaluronic acid gel commonly used in ophthalmic surgery, SPG-178 did not

65 In vivo, the gel completely degrades after two weeks and no signs of

66 Two gel compositions were evaluated with complementary resol

67 However, the migration time increased with gel concentration.

68 reversible porous electrode and electrolyte gels; conductive polymer and copper microwire current co

69 Tooth bleaching gels containing bromelain, papain, or ficin have substan

70 r, that instantaneously forms a subcutaneous gel-depot following injection.

71 The experimental whitening gels did not affect cell viability.

72 te each were generated by a dual-protease in-gel digestion.

73 Nanolitre aqueous pre-gel droplets were connected through lipid bilayers in pr

74 it drug retention on the ocular surface, and gelling drops typically form clumps that blur vision.

75 Emulsion gels (EGs) have characteristics that make them a promisi

76 The gel elasticity and the adhesiveness of the HMT and the C

77 ntrollable compositions and functions enable gel electrocatalysts to potentially break the limitation

78 4 mum PEI film and homemade carbon/silicone gel electrode in ambient atmosphere with 5% relative hum

79 ckaging, the microbattery is infilled with a gel electrolyte.

80 different heights using denaturant gradient gel electrophoresis (DGGE) fingerprinting.

81 ilities of glycoconjugates on polyacrylamide gel electrophoresis (PAGE), as compared with those of AP

82 ular subtyping methods, such as pulsed-field gel electrophoresis (PFGE) and 7-gene multilocus sequenc

83 Pulsed-field gel electrophoresis (PFGE) was applied as a first-line a

84 studied in sodium dodecyl sulfate capillary gel electrophoresis (SDS-CGE) in the interval from 15 to

85 scles using sodium dodecyl sulphate glycerol gel electrophoresis (SDS-GGE).

86 ned by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and matrix-assisted laser

87 Proteins were resolved by gel electrophoresis and blotted, and Siglec-8 ligands de

88 Using gel electrophoresis and DNA melting curve analysis, we s

89 High-resolution 2-D gel electrophoresis and immunoblot analyses revealed tha

90 mologous strains (defined by field-inversion gel electrophoresis banding pattern), emm types, and emm

91 ntified using two-dimensional polyacrylamide gel electrophoresis coupled with matrix-assisted laser d

92 Sodium dodecyl sulfate polyacrylamide gel electrophoresis demonstrated that 60% sorbitol could

93 nd separation resolution provided by thermal gel electrophoresis enabled rapid screening of native pr

94 Gel electrophoresis identified the presence of organic m

95 o the control raw samples, while the protein gel electrophoresis profile remained unaffected.

96 SDS-gel electrophoresis showed that the distribution pattern

97 f Pa isolates were derived from pulsed-field gel electrophoresis typing.

98 Gel electrophoresis was performed to fractionate the com

99 ion chromatography and native polyacrylamide gel electrophoresis we demonstrated that CCN6 is present

100 Capillary gel electrophoresis with laser-induced fluorescence dete

101 e robust (with basic PCR methods and agarose gel electrophoresis), informative, and applicable in mea

102 n dynamics simulations, with thermophoresis, gel electrophoresis, fluorescence correlation spectrosco

103 rmal annealing, their characterization using gel electrophoresis, purification, and direct visualizat

104 Validated by UV-VIS analysis and gel electrophoresis, the single polymerase created a dua

105 erized by FT-IR, SEM, cyclic voltammetry and gel electrophoresis.

106 s to fabricate Cellulose Acetate/Gelatin (CA/Gel) electrospun mat loaded with berberine (Beri) as the

107 oncentration (cmc) of 0.6 mm, but also forms gel emulsions at concentrations beyond the CGC with the

108 The gel emulsions stabilized by R-6-AO can be prepared with

109 studies were used to assess the role of the gel encasing the eggs, as well as the impact of stress o

110 iofilm formation on carrier materials; (iii) gel entrapment; and (iv) membrane technology in mainstre

111 As a result, the gels exhibit super-rapid and significant hikes in stiffn

112 Fe-TAML entrapped in a basic ionic liquid gel exhibited consistent activity in five recycles.

113 cell aggregates can induce bands of deformed gel, extending to surprisingly long distances in the int

114 nge, measured using tissue-mimicking agarose gel, extends to 0.8 cm(3) in volume within an hour at an

115 nsLTP1 was purified using the combination of gel filtration and reverse-phase high-performance liquid

116 rescence binding, X-ray crystallography, and gel filtration experiments with asparagine, aspartate, a

117 Urine samples after gel filtration were analyzed for the presence of differe

118 Using bacterial two-hybrid, gel filtration, and MS analyses, we demonstrate that SvW

119 Both antigens were compared by gel filtration, circular dichroism measurement, in vitro

120 ch explains the application of in situ nasal gel for brain delivery of CNS acting moieties.

121 lication of stimuli-responsive in situ nasal gel for brain drug delivery.

122 separated by size, and photo-captured in the gel for immunoprobing and confocal/light-sheet imaging.

123 r the design of more tailored supramolecular gels for drug delivery applications.

124 that in cystic fibrosis, airway gland mucus gels form under conditions of high acidity and protein c

125 Foaming, gel formation and water holding properties improved only

126 acteristics of aerosol particles and explore gel formation under atmospheric conditions in a contactl

127 on capacity, surface hydrophobicity, protein gel formation, pasting and thermal properties.

128 by a factor of two compared with the fibrin gel formed by directly mixing fibrinogen and thrombin in

129 Cells on soft (1 kPa) gels formed fewer stress fibers and retained a more dend

130 ed solubility, and digestibility with strong gel forming behaviour, whereas 30.0 and 60.0% moisture c

131 the addition of isoascorbic acid (IA) in its gel-forming ability (GFA) were evaluated.

132 cold production of high-quality fish oil and gel-forming proteins from fish by-products.

133 The pH-shift process for isolation of gel-forming proteins from fish processing by-products wa

134 gel beads-a rare example of a supramolecular gel formulated inside discrete gel spheres.

135 SPG-178, therefore, when used in a gel formulation, represents a new material for use in in

136 is specific drug from vesicular phospholipid gel formulations but describe a general scenario as desc

137 -co-hexafluoropropylene) as the ion exchange gel, four orders of magnitude improvement in device tran

138 The low-profile, wireless, gel-free device shows enhanced breathability and minimiz

139 we assess the peripheral myelin proteome by gel-free, label-free mass-spectrometry for deep quantita

140 During the IEF stage, the gel functions as an anti-convective medium and not as a

141 Disordered systems like liquids, gels, glasses, or granular materials are not only ubiqui

142 Erosion of a supramolecular gel has not yet been reported to contribute to the relea

143 Fibrin gels have been extensively used for three-dimensional ce

144 Supramolecular gels have recently emerged as promising biomaterials for

145 r cells embedded in a 3-dimensional collagen gel, however, are killed by cryopreserved NK cells at a

146 Here, we describe a gelling hypotonic solution containing a low concentratio

147 lecular mass bands were observed in the Gd-P gel image.

148 r cavity after surgical removal, and forms a gel immediately upon contact with the brain tissue.

149 ct of gel pore size on IEF separation and in-gel immunoassay performance.

150 oorly understood, particularly in IHC and in-gel immunoassays, where immobilized targets are heteroge

151 are suitable for both IEF and subsequent in-gel immunoprobing by mitigating immunoprobe exclusion fr

152 The novel post-foaming dental gel improves oral health by reducing gingival inflammati

153 Use of post-foaming gel in both test groups resulted in significant changes

154 tropic fluid and an active contractile polar gel, in the presence of a surfactant that favours the em

155 This new dynamic gel is a rare example of a two-component self-assembled

156 tants of more than 300 compositions of C-S-H gel is developed using high-throughput reactive simulati

157 ellulose membranes instead of polyacrylamide gel is used for the electrophoretic separation of protei

158 tantly, mechanical programmability of the LC gels is achieved by genetically tuning the charge densit

159 Matrix gel islands are spotted on a cell culture dish to act as

160 ment, and considering the soft nature of the gel it is essential to be well analyzed.

161 did not permit the ingress of blood into the gel itself.

162 gy and porous composite filaments (Lay-Fomm, Gel-Lay, and Lay-Felt) to fabricate solid phase extracti

163 As the AWI-adsorbed gelled layer matures, its microviscosity increases.

164 nvertebrates using monolithic liquid crystal gels (LCGs) with inherent light responsiveness and molec

165 cs cannot match soft tissue mechanics, while gels leach into the body and alter their properties over

166 First, we have modeled a gel like structure with a preexisting bubble of 5 nm rad

167 The dynamic rheological testing indicated a gel-like behavior (G'>G'') in whole jams.

168 Unmodified N protein forms partially ordered gel-like condensates and discrete 15-nm particles based

169 ndergoes a DNA-dependent phase transition to gel-like condensates and SRPK1-mediated phosphorylation

170 gulator Vts1/Smaug drives self-assembly into gel-like condensates.

171 very (mobile fraction: ~18%) suggestive of a gel-like consistency.

172 Mucus is a gel-like material comprised mainly of the glycoprotein m

173 Pectins are conventionally thought to form a gel-like matrix between stress-bearing cellulose microfi

174 This clustering results in the formation of gel-like or even crystal-like structures in the bacteria

175 s in membraneless protein bodies with liquid gel-like properties known as A-type inclusions (ATIs) th

176 domly assigned to Group 1 and 2 with foaming gel loaded on a mouthpiece with a light source and contr

177 ies, or by applying varying pressures during gel manufacture.

178 Unique advances in gel materials based on controllable compositions and fun

179 and ease of functionalization, the family of gel materials opens exciting opportunities for advanced

180 lution and mechanical properties of the post-gel matrix.

181 They may also be useful as ligands or gel matrixes for other metal-ion catalyzed organic react

182 l synthesized by the facile and scalable sol-gel method achieves 10 mA cm(-2) at a low overpotential

183 The sol-gel method and suitable post-synthesis thermal treatment

184 P formed on surface (MIP@SiCQDs) using a sol-gel method.

185 The gel microstructure was denser and cheese texture firmer,

186 In parallel, a co-culture collagen gel model of the ligament was used to evaluate effects o

187 Furthermore, gel nanocomposites containing platelets showed an enhanc

188 or permeability and water uptake ratio of CA/Gel nanofibers were around 2.83 +/- 0.08 MPa, 58.07 +/-

189 an injectable liquid at room temperature and gels near body temperature.

190 detailed study of the microstructure of the gel network by SAXS at several scales (1-100 nm) were co

191 Foaming ability, foam stability and gel network stability increased upon frozen storage due

192 erties and firmness due to the difference in gel network structure.

193 The ability of the ion-exchange-gel OECT to record biological signals by measuring the a

194 up to 23 nm) pores constituting a disordered gel of peptidoglycan.

195 Eggs are suspended in a gel of unknown composition that is expressed from the fe

196 Thus, this type of anhydrous protein LC gels offers great opportunities for load-bearing high-te

197 al step of transferring the protein from the gel onto the membrane is eliminated.

198 lpha) and a coexistence of Lalpha and either gel or ripple phases.

199 DP-43 phase separation and conversion into a gel or solid phase.

200 Keratocytes cultured on stiff (10 kPa) gels or collagen-coated glass coverslips, however, had b

201 The in situ mucoadhesive gel overthrow the limitations of direct nose-to-brain de

202 When seeded in fibrous gels, pairs of cells or cell aggregates can induce bands

203 X-ray diffraction (XRD), gel permeation chromatography (GPC), and electron parama

204 om polyolefin separation techniques, such as gel permeation chromatography (GPC), crystallization elu

205 Gel-permeation chromatography with quaternary detection

206 zed by (1) H and (13) C NMR spectroscopy and gel-permeation chromatography.

207 DPPC is a cylinder in the gel phase and of moderate similarity to PGPC and mixes m

208 tained via the direct self-assembly from the gel phase are different from the crystals obtained from

209 es and likely structures the membrane into a gel phase.

210 The sol-gel platform contained p-dimethylaminobenzaldehyde (p-DM

211 Therefore, PCL coated CL fibrous gel platforms appear to be good candidates for controlle

212 Here, we characterized the effect of gel pore size on IEF separation and in-gel immunoassay p

213 We modulated polyacrylamide (PA) gel pore size via lateral chain aggregation initiated by

214 binders using small pieces of a hydrophilic gel, previously loaded with trypsin and chymotrypsin pro

215 ange of 14-78 mum by pulling or pressing the gel probe after touching the sample.

216 The gel probe is approached to the sample by either current

217 The gel probe, which is fabricated by electrodeposition of h

218 free materials are synthesized using the sol-gel process to explore their compositional landscape by

219 eins with a silica coat using a modified sol-gel process.

220 sed label-free proteomic approach (direct in-gel profiling of protease specificity) as a valuable sub

221 hemical, morphological, thermal, pasting and gelling properties of native and modified starches were

222 studied flours influenced their pasting and gelling properties to certain levels under the different

223 Functional studies indicate the gel provides a larval food source as well as a buffer fo

224 pH 4.3, despite the viscoelasticity of these gels remaining similar during heating.

225 ng an isotropic and compressible contractile gel, representing a cell extract containing a disordered

226 Post-foaming gel resulted in greater reductions in periodontopathogen

227 demonstrate that the gentle hydration of PAA gels results in predominantly unilamellar vesicles, whic

228 We show that Policaptil Gel Retard has remarkable, beneficial effects on metabol

229 Using gel-retardation and RNA/DNA competition assays, we found

230 Growth of osteoclasts in 3D gels reversed the effect of HIF-2alpha knockdown; HIF-2a

231 neral, current feedback is more sensitive to gel-sample contact than shear force feedback.

232 d proteins that have been immobilized onto a gel scaffold.

233 Gel shift and DNase I footprinting assays confirmed the

234 A gel shift assay with a radiolabeled OARE module and nucl

235 rough chromatin immunoprecipitation (IP) and gel shift assays, we found that RORalpha in the form of

236 Chromatin immunoprecipitation and gel shift studies indicated that SP1 interacted with the

237 consensus sequence is supported by in vitro gel shifts and by in vivo functional reporter gene studi

238 Device-enhanced foaming gel significantly reduced the PI in Group 1 at Day 42 co

239 ne bodies has been demonstrated in a phantom gel skin-mimicking model.

240 concentration, vitrimers undergo a reentrant gel-sol transition, which explains a recent experiment [

241 digm in controlling gelation kinetics of pre-gel solution and mechanical properties of the post-gel m

242 The gelling solvent situated in the "molecular pocket" stitc

243 ce of a transparent, self-assembling peptide gel (SPG-178) and its ability to maintain visibility dur

244 upramolecular gel formulated inside discrete gel spheres.

245 We identified 5 gel spots representing 19 proteins that changed consiste

246 or 1 exhibits weak green fluorescence in the gel state, whereas it shows highly intense yellow fluore

247 nd conjunctival bleb-forming procedures (Xen gel stent and InnFocus microshunt).

248 The presence of almond fat increased gel strength but led to a more heterogenous microstructu

249 mino acid additives on elevation of T(d) and gel strength followed a particular order.

250 Mechanical analysis revealed that gel strength is enhanced when crystal structure is isotr

251 ncentration-dependent, temperature-sensitive gel strengths.

252 trobenzaldehyde, but it did not maintain its gel structure during reaction.

253 HD/Se/ICG gel structure was remained in the mouse for 2 weeks and

254 The highly porous gels supported a pH gradient with slope and linearity co

255 prepared by rapid ageing of the zeolite sol gel synthesis mixture.

256 ken together, lateral aggregation creates PA gels that are suitable for both IEF and subsequent in-ge

257 with acidic pectins to form block-copolymer gels that can play distinct roles in legume root cell wa

258 tionship of calcium-silicate-hydrate (C-S-H) gel-the primary binding phase in concrete formed via the

259 e of bioactive molecules from supramolecular gels, this work provides mechanistic insight into the wa

260 g, and elucidating the phase transition from gel to crystal are highly important for the development

261 antiopure trianglimine macrocyclic host from gel to single crystals.

262 lid-state NMR and revealed that the lamellar gel-to-fluid phase transition occurs below 0 degrees C,

263 Furthermore, a reversible sol-gel transformation associated with changes in the spectr

264 rotation that plays a major role in the sol-gel transformation.

265 and CaCl(2) were examined on the solution-to-gel transition of mucin, the primary structural componen

266 Addition of CaCl(2) increased the sol-gel transition pH value to ca. 6, with a twofold increas

267 cally [H(+)] and [Ca(2+)] -modulated the sol-gel transition pH, isoelectric point, and viscoelastic p

268 d cost-effective analytical tool for probing gel transitions outside of bulk solubility limits, with

269 Existing techniques for studying gel transitions rely on bulk rheometry, which is limited

270 le fibers within biochemically inert agarose gels tuned to mimic native tissue stiffness.

271 A sol-gel urea colorimetric method was developed for the deter

272 aterials including asphalt concrete, agarose gel, vaginal tissue, polymer, agar, bone, spider silk, a

273 reased protein concentration decreased mucus gel volume and increased mucus strand elasticity and ten

274 After a strategic investigation, silica gel was discovered to be the cause of the byproduct form

275 Hydrophilic polyacrylamide gel was injected into the soft palate of the rabbits to

276 posing shape and structure on supramolecular gels, we combine a low-molecular-weight gelator (LMWG) w

277 The rheological properties of the CAGE gel were dominated by the elastic modulus and suggested

278 The resulting gels were characterized using optical microcopy and atom

279 ratio, acid uptake and digestion rate of the gels were measured.

280 The whitening gels were prepared and applied on the enamel three times

281 CO(2) and NH(3) within the pores of the wet gel which prevents pore collapse during drying.

282 The other one was a borate-buffered dextran gel, which utilized the secondary equilibrium of the bor

283 of anhydrous protein liquid crystalline (LC) gels, which exhibit flexible morphological plasticity an

284 linkers in the fabrication of supramolecular gels, which exhibited excellent viscoelasticity, stretch

285 of swelling on gastric digestion of protein gels, which is rarely recognized in literature.

286 must remove liquid from the pores of the wet gel while maintaining the solid network.

287 by mitigating immunoprobe exclusion from the gels while facilitating removal of unbound immunoprobe.

288 cumulation of alphaSMA-positive cells in the gel, while knockdown of endothelial Twist1 suppresses th

289 of alphaSMA-positive cells in the implanted gel, while Twist1 knockdown in PAE cells inhibits the ef

290 uidic device is a photoactive polyacrylamide gel with a microwell array-patterned face (xy) for cell

291 Intratumoral injection of HD/Se/ICG gel with NIR laser irradiation provided the most efficie

292 2)/kg lipid hydroperoxides after 4 weeks) in gels with > 2.4% water addition.

293 2)/kg lipid hydroperoxides after 6 weeks) in gels with < 0.23% water and a high (>1,000 mmol O(2)/kg

294 ed at 65-75 degrees C and weakly flocculated gels with a continuous protein network occurred at 85-95

295 Collagen gels with controlled fiber thickness and pore size were

296 rk occurred at 85-95 degrees C, resulting in gels with high water holding capacity and a strength sim

297 Whey protein gels with NaCl concentrations 0-0.1 M were used as model

298 Interpenetrating L-PVA causes a change from gels with oriented channels to sponge-like semi-IPNs wit

299 ounds were found to be capable of forming co-gels with the catalytically active hexameric compounds.

300 In this work, we used polyacrylamide (PA) gels with varying stiffness (6.5-92.5 kPa) as the substr