ライフサイエンスコーパス: intercalation

1 % (particle-by-particle) to 100% (concurrent intercalation).

2 cyanin/Mnt ratios, corroborating anthocyanin intercalation.

3 hts into the stereoselectivity of DNA-ligand intercalation.

4 contradicting the previous hypothesis of EE intercalation.

5 e) susceptible to ionic electromigration and intercalation.

6 re discussed, followed by unconventional DNA intercalation.

7 about the molecular mechanisms governing DNA intercalation.

8 disulfide can be modified by electrochemical intercalation.

9 tion, which is responsible for oriented cell intercalation.

10 environments from acidic to alkaline, proton intercalation.

11 basal stalk, a stack of cells formed by cell intercalation.

12 isruption of F-actin polymerization and cell intercalation.

13 tch between cell migration and CE, i.e. cell intercalation.

14 ecies, phosphate hydrolysis and/or base-pair intercalation.

15 he microtubule-regulating Par complex during intercalation.

16 of nanoparticles that phase-separate on (de)intercalation.

17 y's earlier role in convergent extension and intercalation.

18 acilitates redox reactions of iodine and ion intercalation.

19 nanoscopic defects dominate the dynamics of intercalation.

20 which can only be ascribed to hydronium-ion intercalation.

21 migration, but plays no role in chondrocyte intercalation.

22 dergo aberrant basal cell extrusion and cell intercalation.

23 of cell fates and apoptosis, as well as cell intercalations.

24 tissue contraction through radial deep cell intercalations.

25 ll layer expansion and mesenchymal deep cell intercalations.

26 Upon intercalation, a charge density per graphene layer of 5

27 evidence against the popular model that DNA intercalation accelerates nucleotide flipping.

28 was found to enable fast anion diffusion and intercalation, affording charging times of around one mi

29 Using fully reversible lithium intercalation allows us to switch between thin films of

30 These changes fit a model of cell intercalation along differential Dchs1-Fat4 activity tha

31 nts and molecular simulations show that PCBM intercalation also appears to "catalyze" a more efficien

32 impedance spectroscopy suggests that proton intercalation also plays an important role in the slow d

33 ong charge doping induced by the tunable ion intercalation alters the energetics of various charge-or

34 ation, which is an important feature for DNA intercalation and bioactivity.

35 te that actomyosin contractility drives cell intercalation and cell extrusion during palate fusion an

36 hlea extends through a combination of radial intercalation and cell growth.

37 Intercalation and conversion are two fundamental chemica

38 ation undergoes a two-step reaction, whereby intercalation and conversion occur in a sequential manne

39 sight into the fundamental process of radial intercalation and could be applied to a wide range of mo

40 Intercalation and deintercalation of lithium ions at ele

41 the nucleosome comprise a novel one-stranded intercalation and DNA distortion mode.

42 mportantly, Au(3+) is essential for both DNA intercalation and enzyme inhibition.

43 ral cells undergo mediolaterally biased cell intercalation and exhibit both apical boundary rearrange

44 s the orientation of apical migration during intercalation and in which subcellular localization of C

45 This contraction occurs by cell intercalation and is mechanically coupled to the basal l

46 Although interaction modes like intercalation and minor groove binding already have been

47 binding mechanisms could be assigned to bis-intercalation and minor groove binding, respectively, DR

48 rd mode of ligand-DNA binding, discrete from intercalation and minor-groove binding.

49 ntial reduction of material absorption after intercalation and nanophotonic effect of zero-wave anti-

50 Herein we report a two-step electrochemical intercalation and oxidation approach to produce GO on th

51 The latter can be exfoliated by Li-ion intercalation and sonication to obtain layers down to mo

52 r Hect ligases, presumably blocking Phe(727) intercalation and trimer formation.

53 The interplay between radial intercalation and various biasing factors, such as local

54 elopmental rearrangements occur through cell intercalation, and cells can delaminate during epithelia

55 m is an essential early step, driven by cell intercalation, and is concurrent to orthogonal cell disp

56 bdomain compaction, facilitating beta-strand intercalation, and optimizing translation kinetics via c

57 canonical Wnt signaling is required for cell intercalation, and that wnt5b and wnt9a are required for

58 c lithium anodes to replace conventional ion intercalation anode materials is highly desirable becaus

59 e of 0.5 V, but also provides a new type of intercalation anode with a crystal structure that differ

60 al closure in which forces generated by cell intercalation are leveraged to tow the surrounding tissu

61 erlattices, highly stabilized by ammonia-ion intercalation, are produced using a facile bottom-up pro

62 2O5, lithiation gradients observed on Li-ion intercalation arise from electron localization and local

63 issue elongation results from polarised cell intercalations around the tubule circumference, producin

64 Identification of intercalation as a likely mechanism for the mutagenicity

65 ly expanding field of nonaqueous multivalent intercalation batteries offers a promising way to overco

66 ese boundaries are the primary sites of cell intercalation, behaving as mechanical barriers and provi

67 calculations are employed to investigate the intercalation behaviour of choloraluminate anions in the

68 Lipid intercalation between the separating TM domains during c

69 structure provides a stable host for lithium intercalation; bond valence sum mapping exposes the dege

70 ces for both iodine encapsulation and cation intercalation but also generates efficient electronic an

71 We investigated DNA threading intercalation by binuclear ruthenium complex [mu-dppzip(

72 Here we describe its intercalation by several alkali metals (Li, K, Rb and Cs

73 These observations suggest that intercalation by this aromatic residue is one of the ear

74 DNA intercalation by threading is expected to yield high aff

75 ther, these results indicate ruthenium-based intercalation can block replication fork progression and

76 uggest a multistep model to explain how cell intercalation can occur against a force gradient to gene

77 ographic shear structure) H-phase shows high intercalation capacity (>200 mA.h.g(-1)) but only at mod

78 to identify a high-voltage and high-capacity intercalation cathode host.

79 attery research, focusing on a wide range of intercalation cathode materials and the mechanisms of mu

80 Conventional intercalation cathodes for lithium batteries store charg

81 ost, and safe materials that can function as intercalation cathodes in Na-ion batteries is an importa

82 orted rechargeable magnesium batteries using intercalation cathodes.

83 ub- to single-hydrated systems (</= 1W), CO2 intercalation causes interlamellar expansion of 8-12%, w

84 that, either at high temperature or at large intercalation, CDW order becomes short-ranged with a wel

85 on of XTRPM6 but not XTRPM7 disrupted radial intercalation cell movements.

86 Here we find that intercalation charge transfer proceeds through highly va

87 emistry, unusual electronic properties, rich intercalation chemistry and wide spectrum of potential a

88 s) comprising (1) forming a stage 1 graphite intercalation compound (GIC) in concentrated sulfuric ac

89 at is referred to as a Hyperstage-1 graphite intercalation compound (GIC), which has a very large int

90 A graphite-potassium intercalation compound (KC8) was dispersed in THF, and d

91 measurements of the superconducting graphite intercalation compound CaC6 that distinctly resolve both

92 Here we describe an intercalation compound in which the host [Co6Te8(P(n)Pr3

93 aterial), the potassium concentration in the intercalation compound, and the choice of the solvent ha

94 ia benchmark reductive routes using graphite intercalation compounds (GICs), in particular KC8.

95 or the superconducting mechanism in graphite intercalation compounds and lend support to the idea of

96 ent transition in lithiation mechanism among intercalation compounds and provide important guidelines

97 Graphite intercalation compounds are formed by inserting guest mo

98 The intercalation compounds are generally considered as idea

99 insights for the research and development of intercalation compounds as electrode materials for secon

100 n and deuteration of graphite with potassium intercalation compounds as starting materials were inves

101 the formation of different graphite-lithium intercalation compounds during cycling.

102 are an appealing alternative to conventional intercalation compounds for use as cathodes in next-gene

103 tion behaviors in lithium iron phosphate and intercalation compounds in general and can help guide th

104 The intercalation compounds with various electrochemically a

105 nly enriches the electrochemistry of layered intercalation compounds, but also extends the scope of i

106 cts are mixtures of graphite and first-stage intercalation compounds.

107 We find that tyrosine intercalation confers 140-fold stabilization of the extr

108 In the case of AAG, DNA intercalation contributes to the specific binding of a d

109 lar mechanisms that include cell elongation, intercalation, convergent extension, proliferation, and

110 d dissolution of aluminium at the anode, and intercalation/de-intercalation of chloroaluminate anions

111 rovide short diffusion lengths for the Li(+) intercalation-deintercalation.

112 ructured graphite allows fast and reversible intercalation/deintercalation of anions, promising a sup

113 phase structural change behaviors during the intercalation/deintercalation of guest ions have not bee

114 The reversible intercalation/deintercalation of Li-ions in spinel mater

115 ing the volume variation of the sulfide upon intercalation/deintercalation of Li.

116 for Na(+) and Li(+), respectively during the intercalation/deintercalation process have been demonstr

117 erization of magnetization during the Li-ion intercalation/deintercalation process was conducted, and

118 However, their reversible intercalation/deintercalation redox chemistries in previ

119 l-on their synthesis, structure, properties, intercalation, delamination, and potential applications.

120 PM7, whose loss interferes with mediolateral intercalation, depletion of XTRPM6 but not XTRPM7 disrup

121 The dynamic, oriented cell intercalation during CE is regulated by a group of core

122 esicle trafficking and more recently in cell intercalation during gastrulation.

123 e Toll genes function together to drive cell intercalation during germband extension [2].

124 is critical for the development of advanced intercalation electrode materials.

125 TiS2, have been investigated as possible 1 V intercalation electrodes but suffer from capacity fading

126 h-capacity electrodes.The rational design of intercalation electrodes is largely confined to the opti

127 d manganese-rich transition-metal (TM) oxide intercalation electrodes.

128 at occur during germband extension, in which intercalation events drive the elongation of tissues.

129 heir junctions with neighbours to drive cell intercalation events.

130 on) and superior Na transport kinetics in Na intercalation/extraction processes, as demonstrated by i

131 Cell intercalation fails in Pak mutant ovaries, leading to ab

132 epithelial rearrangements, involving radial intercalations, flattening and directed elongation of ce

133 oaches to investigate the timing of Tyr(162) intercalation for AAG.

134 hes to dissect the energetic contribution of intercalation for human alkyladenine DNA glycosylase, an

135 This is compared with low-voltage lithium intercalation for unstrained MoS2.

136 Specifically, we demonstrate the intercalation-growth of a 2D-FeO layer in between graphe

137 H) to octahedral (1T) upon lithium or sodium intercalation has been in-situ observed experimentally u

138 rent strategies such as reducing dimensions, intercalation, heterostructure, alloying, and gating.

139 up possibilities for a variety of effective intercalation hosts for multivalent-ion batteries.Magnes

140 methodology can map interlayer coupling and intercalation in 2D films.

141 Cu-intercalation in BiTeI gives rise to higher power factor

142 However, the classic ion intercalation in graphitic carbon has yet to be coupled

143 ues enable investigation of other aspects of intercalation in nanostructures.

144 te that two Toll genes are required for cell intercalation in the beetle Tribolium castaneum.

145 role of this dense plane is to constrain the intercalation in the diffusion channels to operate by co

146 We find that increase in carbonate intercalation in the hydroxyapatite lattice can be relia

147 s mainly involved in regulating mediolateral intercalation in the medial region of the neural plate.

148 t-principles calculations for probing Li-ion intercalation in zero-strain electrodes, which is crucia

149 n a simplified system without polarized cell intercalation, in acellular embryos.

150 The electric field-driven de-intercalation/intercalation of lithium ions can result i

151 e critical role of structural H2 O on Zn(2+) intercalation into bilayer V2 O5 .nH2 O is demonstrated.

152 resented of the dynamical process of polymer intercalation into clay tactoids and the ensuing aggrega

153 thetic and crystal chemistry of alkali metal intercalation into PAHs differs from that into fullerene

154 Alkali metal intercalation into polyaromatic hydrocarbons (PAHs) has

155 SERS measurements have corroborated the DOX intercalation into the DNA duplex whereas the electroche

156 G1 delamination and G2 intercalation involve cytoskeletal remodeling, interconv

157 of the capacity and voltage for a variety of intercalation ions (Li(+), Na(+), K(+), and Mg(2+)) into

158 Radial intercalation is a fundamental process responsible for t

159 Cell intercalation is a fundamental, coordinated cell rearran

160 These results show that intercalation is a powerful approach to manipulate the m

161 We demonstrate that reversible Li intercalation is also achievable in the hybrid organic/i

162 ice higher than the temperature at which the intercalation is conducted.

163 stood, and we provide evidence that the cell intercalation is driven by actomyosin contractility of D

164 lation, here we provide evidence that radial intercalation is driven by chemotaxis of cells toward th

165 ucture calculations, we demonstrate that the intercalation is driven by the exchange of charge betwee

166 Traditional intercalation is electrochemical thus limiting intercala

167 Yet stable, reproducible, and reversible Na intercalation is observed.

168 Intercalation is performed chemically through a stepwise

169 Intercalation is thought to proceed in discrete stages,

170 is the number of graphene layers (LG) before intercalation, is demonstrated.

171 The zero force Delta,Delta-P intercalation Kd is 44 nM, 25-fold stronger than the ana

172 ers, allowing direct characterization of the intercalation kinetics as well as the amount intercalate

173 g affinity and the force-dependent threading intercalation kinetics of the binuclear ruthenium comple

174 Electrochemical Cu(+) ion intercalation leads to a permanent phase transition to i

175 for site occupation in lithium-ion (Li-ion) intercalation materials.

176 onatal collecting duct, suggesting that such intercalation may represent a normal developmental mecha

177 The intercalation mechanism allows potential dynamic tuning

178 Gaining insight into the detailed fullerene intercalation mechanism is important for the development

179 to understand details of the anion-graphite intercalation mechanism.

180 Unconventional intercalation mechanisms may exhibit high affinity and s

181 s on the unambiguous characterization of the intercalation mechanisms.

182 c materials through a facile electrochemical intercalation method, fabricating a hybrid superlattice

183 ing a molecular beam epitaxy approach and O2 intercalation method, which is compatible with wafer sca

184 ith high surface area by the electrochemical intercalation method.

185 igher metal-carbon ratio than is possible by intercalation methods.

186 nic molecule and protein) and binding modes (intercalation, minor groove, allosteric switch).

187 We consider lithium intercalation model for multilayer graphene where capaci

188 ed an iFET), in which gate-controlled Li ion intercalation modulates the material properties of layer

189 hrough optimization of aminoalkyl linker and intercalation moieties at the weak binding sites.

190 ny decades it has been thought that graphite intercalation must involve host-guest charge transfer, r

191 Although the dye-DNA intercalation occurs during the separation, it does not

192 We discovered that fullerene intercalation occurs when there is enough free volume be

193 The battery demonstrates the reversible intercalation of 1 and 1.7 magnesium monochloride cation

194 6(tdTomato/+) mice revealed evidence for the intercalation of a Wnt4-expressing interstitial populati

195 es used during development is the controlled intercalation of cells between their neighbors.

196 We use the radial intercalation of cells into the skin of Xenopus laevis e

197 aluminium at the anode, and intercalation/de-intercalation of chloroaluminate anions in the graphite,

198 noplates of layered bismuth chalcogenides by intercalation of copper atoms, which is on the contrary

199 eutic efficacy, which typically results from intercalation of doxorubicin with DNA, was equivalent fo

200 attice types (bcc, fcc, and AlB2) due to the intercalation of ds-DNA linking NPs.

201 The developmentally regulated intercalation of electrical activity in the Shh pathway

202 en achieved by either mechanical transfer or intercalation of elements/molecules in between the metal

203 Fascin promoted intercalation of filopodia into mesothelial cell layers

204 cts is derived through chloroaluminate anion intercalation of graphite followed by thermal expansion

205 ttery technology is rooted in the studies of intercalation of guest ions into inorganic host material

206 Redox intercalation of guest ions is thus likely to be a gener

207 e is found to be a suitable host for further intercalation of guest species such as Li-ethylenediamin

208 Efficient intercalation of ions in layered materials forms the bas

209 Intercalation of ions into MXenes has recently been demo

210 The electrochemical intercalation of layered materials, particularly graphit

211 The intercalation of metal cations in 2D layered materials a

212 se for other applications like catalysis and intercalation of metal ions into layered structures.

213 In this report, we show that intercalation of minor Cu-dopants can substantially alte

214 We demonstrate the intercalation of multiple zero-valent atomic species int

215 hitherto unappreciated mechanism, the radial intercalation of new neurons at the top of the cortical

216 This strong interaction prevents the rapid intercalation of oxidizing species at the graphene-metal

217 The intercalation of PCBM is observed beyond BTTT-2 and long

218 ntained and enable the cocrystallization and intercalation of PCBM.

219 to regulate, via rosette intermediaries, the intercalation of post-mitotic neuronal cell bodies durin

220 bases paired with (Me)C and the preferential intercalation of riboflavin photosensitizer adjacent to

221 lica during silica formation, leading to the intercalation of silica into the assembled peptide film.

222 ansmission electron microscopy, we video the intercalation of single microcrystals of graphite in con

223 cular rectifier constructed by site-specific intercalation of small molecules (coralyne) into a custo

224 ity of our anode through a dual mechanism of intercalation of sodium ions along the x axis of the pho

225 ollows highly activated diffusion-controlled intercalation of stabilizer into inter-sheet galleries.

226 locked together to form a tetraplex through intercalation of the 5'-most A-A base pairs between adja

227 s tuneable electrical characteristics to the intercalation of the azobenzene between adjacent graphen

228 st electrochemically, demonstrating that the intercalation of the capping agent promotes oxidation of

229 process, which consists of fast bimolecular intercalation of the first dppz moiety followed by appro

230 complete understanding of the diffusion and intercalation of the fullerene-derivative within the pol

231 ically straightforward process that involves intercalation of the lipid tails of DNA amphiphiles (CpG

232 This twisted conformation allows for intercalation of the relatively high-lying pi(B=B) orbit

233 ety followed by approximately 10-fold slower intercalation of the second dppz moiety.

234 the flipped-out nucleotide is stabilized by intercalation of the side chain of tyrosine 162 that rep

235 bution of the wires, and emphasizes the deep intercalation of the surfactants.

236 f multilayer graphene oxide membranes due to intercalation of water, via humidity-controlled observat

237 tial for large-scale energy storage, but the intercalation of zinc ions in the cathode materials is c

238 Here we show that redox intercalation offers an effective method to control ther

239 owever, the direct impact of ruthenium-based intercalation on cellular DNA replication remains unknow

240 Our method of gate-controlled intercalation opens up possibilities in searching for no

241 romatic residues participate directly in DNA intercalation, our findings suggest that specific basic

242 Rather, cell intercalations parallel to the tissue front locally comp

243 le-particle scale to reveal a rate-dependent intercalation pathway through the entire electrode and a

244 The complexes that formed the intercalation pocket led to more stable interactions.

245 cell shape suggests convergent migration and intercalation, potentially accounting for post-stratific

246 We find that the initial intercalation process follows a two-phase reaction seque

247 py, a unified understanding of the Na and Li intercalation process in FePO4 is proposed.

248 This reversible intercalation process opens up new opportunities to fine

249 -electron for charge compensation during the intercalation process, inspired by Li2 MnO3 redox reacti

250 ne layers are not oxidized or reduced in the intercalation process.

251 Raman spectroscopy shows two different intercalation processes involving chloroaluminate anions

252 a also reveal the first indication that cell intercalation processes occur during ventral body wall e

253 Here, the authors combine the ion intercalation properties of porous graphitic carbons wit

254 The Na-ion intercalation pseudocapacitance enabled by tailor-deigne

255 Here we demonstrate that the Na(+) intercalation pseudocapacitance in TiO2/graphene nanocom

256 ion energy barrier, thus enhancing the Na(+) intercalation pseudocapacitive process.

257 intercalation, revealing force-dependent DNA intercalation rates and equilibrium dissociation constan

258 Interestingly, the intercalation reactions proceed in solid state and at su

259 Layered materials embrace rich intercalation reactions to accommodate high concentratio

260 ically driven phase transition (for example, intercalation reactions) and for the origin of inhomogen

261 The intercalation region is a new type of DNA tertiary struc

262 derstood alternative mechanism of epithelial intercalation relies on basolateral protrusive activity.

263 We demonstrate that cell intercalations remodel intercellular junctions predomina

264 aging demonstrated that concomitant cellular intercalation results in a brief period of epithelial co

265 gle DNA molecule elongation due to threading intercalation, revealing force-dependent DNA intercalati

266 -DNA complexes, XR5944 binds strongly at one intercalation site but weakly at the second site.

267 e movement of the terminal bases forming the intercalation site.

268 e results show that Mn vacancies provide ion intercalation sites which concurrently improve specific

269 erent from the simple addition of two single intercalation sites.

270 rge number of titanium vacancies that act as intercalation sites.

271 An intercalation step prior to conversion is explicitly rev

272 The in-situ electrochemical intercalation technique ensures the low contact resistan

273 harge storage studies have focused on cation intercalation, the anion-based mechanism presented here

274 ular dynamic simulations revealed that after intercalation, the inserted ion-oxygen bond formation de

275 Intercalation, the insertion of guest atoms, ions or mol

276 tally reiterated form of migration is radial intercalation; the process by which cells move in a dire

277 Rearrangement of graphene layers upon intercalation to (n + 1)LG, where n is the number of gra

278 eas the dihydroanthracene compounds bind via intercalation to all the DNA sequences studied here.

279 ull atomistic picture of the transition from intercalation to conversion, which is of essential impor

280 y density functional theory and show lithium intercalation to direct a preferential transformation of

281 he caudal SpM and may regulate oriented cell intercalation to incorporate SHF progenitors into an epi

282 Here we report the use of trimethylpsoralen intercalation to map the extent of supercoiling across t

283 ties, gas adsorption capacity or lithium-ion intercalation) to identify promising target candidates f

284 pically constrict, without cell extrusion or intercalation, to fold the epithelium into a tube that w

285 ce between external rounding forces and cell-intercalation traction.

286 Upon intercalation, transport measurements reveal a change in

287 conserved cassette that regulates epithelial intercalation via basolateral protrusive activity.

288 injection, i.e., capacitive charging or ion intercalation, via the choice of the charge compensating

289 cal strategy to determine the binding modes (intercalation vs groove binding) of small fluorescent or

290 On intercalation, we observe an increase of both optical tr

291 e work function of the graphene after the H2-intercalation, which confirms the change of majority car

292 his morphogenetic process is powered by cell intercalation, which involves the shrinkage of junctions

293 study indicate that XTRPM6 regulates radial intercalation with little or no contribution from XTRPM7

294 The combination of ion intercalation with redox reactions of iodine allows for

295 organic-inorganic porous hybrids obtained by intercalation with silsesquioxane posessed layered morph

296 lysis through anion-pi interactions; and NDI intercalations with DNA for medicinal applications.

297 The sites of intercalation within a native promoter sequence appear t

298 Its intercalation within core-units stimulates array formati

299 Studies of intercalation within epithelia have focused almost exclu

300 lation of cellular protrusions, movement and intercalation within the cochlea all require myosin II.