ライフサイエンスコーパス: stacking

1 ve and repulsive forces fully explains grana stacking.

2 cluster interactions of C-H...pi and pi...pi stacking.

3 mer structure affects non-covalent COF layer stacking.

4 s with improved ribbon linking and cisternal stacking.

5 ive van der Waals (FvdWaals) forces in grana stacking.

6 than tCTP due the increased effects of base stacking.

7 tured by non-Watson-Crick basepairs and base stacking.

8 ps can be achieved through substitutions and stacking.

9 tions and were focused by micelle-to-solvent stacking.

10 nofibers were formed due to interchain pi-pi stacking.

11 details of molecular interactions or spatial stacking.

12 nteracts with graphene non-covalently via pi-stacking.

13 int of [C-H...O] interaction-driven columnar stacking.

14 will provide the extra driving force for DV stacking.

15 ides heavily depend on their phase and layer stacking.

16 ny size always prefer hexagonal-close-packed stacking.

17 y favor tile-tile packing over duplex-end pi-stacking.

18 core is highly quenched due to strong pi-pi stacking.

19 ucture initially identified as having the 9R stacking.

20 ent propensities for single-stranded helical stacking.

21 ergy harvesting device that is structured by stacking a layer of quantum dots (QDs) and a layer of pi

22 ossesses high crystallinity and strong pi-pi stacking alignment, which are favorable to charge carrie

23 neous phase and in heterogeneous phase by pi-stacking anchorage to graphene-based electrodes.

24 Such putative interactions include pi-stacking and a CH...O electrostatic attraction between t

25 ding in enhancing the persistency of monomer stacking and amplifying the lev-el of order into the gro

26 by long-range hydrogen bonds and nucleobase stacking and by a triloop that forms within its three-wa

27 fluorescent protein that results from pi-pi stacking and by the enhanced fluorescence intensity seen

28 ructure of the flattened nanotube through pi-stacking and CH-pi interaction, correspondingly improvin

29 We use a stacking and folding method to generate aligned graphene

30 ckground electrolytes results in both sample stacking and formation of a dynamic pH junction.

31 The X-ray crystal structure reveals a pi-pi stacking and hydrogen bonding interactions that stabiliz

32 Our results highlight the role of stacking and hydrogen-bond interactions in restraining a

33 biquinone (UQ) and menaquinone (MQ) can form stacking and hydrogen-bonded interactions with the conse

34 reas A63 is directed inwards and anchored by stacking and hydrogen-bonding interactions.

35 ing advantages of the supramolecular "pi-pi" stacking and hydrophobicity interaction between SN-38, a

36 in Fel have contrasting effects on vertical stacking and lateral intramembrane organization.

37 gh degree of synthetic control in interlayer stacking and layer planarity renders an ordered network

38 ue to the remarkable ability of urea to form stacking and NH-pi interactions with aromatic groups of

39 Here, we show and explain how the layer stacking and physical properties of WSe2 are influenced

40 A consortium, we extracted hydrogen bonding, stacking and solvation energies of all combinations of D

41 In addition, the lack of base stacking and the DeltaHvH/DeltaHcal ratio seen at low sa

42 other complexities can lead to more complex stackings and properties.

43 lent interactions, namely, hydrogen bond, pi-stacking, and C-H...pi interaction and C-H...F interacti

44 ication-module bases: hydrogen bonding, base stacking, and distance to the enzymatic core.

45 ied hydrogen-bonding (or base pairing), base stacking, and electrostatic interactions as essential dr

46 interactions, namely van der Waals (vdW), pi-stacking, and hydrogen bonding groups.

47 aborative interactions (electrostatic, pi-pi stacking, and hydrophobic interactions).

48 Efficient charge transfer, tighter pi-pi stacking, and strong intermolecular coupling are respons

49 le sharing of contributors leading to allele stacking; and differentiation of PCR stutter artifacts f

50 t and high-precision method for trapping and stacking antihydrogen by using controlled plasma.

51 A stacking approach in capillary electrophoresis based on

52 The stacking approach was also implemented in the direct ana

53 The stacking approach was also implemented in the nonaqueous

54 Here, we report a chiral stacking approach, where two-dimensional materials are p

55 wth direction, opens up new possibilities of stacking arbitrary numbers of hybrid layers which are no

56 elopment of modern electronics with multiple stacking architectures that increase the complexity of t

57 agonal layers stabilized in a fully eclipsed stacking arrangement with pronounced disorder in the sta

58 CGE) with head-column field-amplified sample stacking as an online sample preconcentration technique.

59 band gap at the boundary the altered atomic stacking at the boundary does not change the overall fer

60 preferred crystallite orientation along the stacking axis, with perpendicular measurement indicating

61 rated into the COF skeletons, the interlayer stacking becomes weak, resulting in the easy exfoliation

62 as Nodal is essential for the characteristic stacking behavior of lateral cells.

63 ons, and fail to undergo the intercalary and stacking behaviors essential for normal morphogenesis.

64 Although pi-pi stacking between layers, hydrolytic instability, possibl

65 Stacking both beneficial traits caused undesirable branc

66 relies on the generation and control of the stacking boundaries which is a challenge in MCE because

67 tive electrophoretic velocities at a dynamic stacking boundary formed between charged micelles (i.e.,

68 e bilayer, where the atomic structure of the stacking boundary is revealed by scanning transmission e

69 initramidate, with unique face-to-face pi-pi stacking, can be potentially used as a high-performance

70 The stacking causes a unique internal order that leads to sp

71 g key parameters such as the size, shape and stacking character of strands with different sequences.

72 te and glutamate, we developed and applied a stacking chiral capillary electrophoresis (CE) with lase

73 l dislocation spirals form the bulk 2H layer stacking commonly observed, and plates containing mixed

74 t, and corrected peak area) under the chosen stacking conditions (cations/anions) were >/=0.998/>/=0.

75 The complex layer stacking confers excellent thermal properties upon Bi4O4

76 how that whereas in two-layer graphene layer-stacking configuration controls the conformation of the

77 thdating strategy, we identify a "sequential stacking" construction mode where neurons derived from t

78 anslocation rates, with increased ssDNA base stacking correlated with decreased translocation rates,

79 However, a small preponderance of ABAB stacking could be discerned.

80 es (e-synapses), are connected by vertically stacking crossbar electrodes.

81 Stacking, defined as using both a TCS and an ICS in the

82 ilayer structures have been shown to exhibit stacking-dependent electronic bandgap and quantum transp

83 in semiconductor heterostructures either by stacking different TMDs to form vertical heterojunctions

84 long both the polymer backbone and the pi-pi stacking direction in field-effect transistors.

85 oducing a formal charge modulation along the stacking direction.

86 arrangement with pronounced disorder in the stacking direction.

87 charge-separated polaron pairs along the pi-stacking direction.

88 ly 0.05% tensile strain along the rubrene pi-stacking direction.

89 interchain charge transport along the pi-pi stacking direction.

90 ions in the lateral (in-plane) and vertical (stacking) directions are both seen to be linear with res

91 ith temperature, resulting in some degree of stacking disorder in ice grown from vapor in the tropica

92 extreme conditions have been used to produce stacking disordered frost ice in experiments and may be

93 d that vapor deposition results in growth of stacking disordered ice only under conditions of extreme

94 eeply supercooled liquid water is metastable stacking disordered ice.

95 We find that stacking-disordered critical crystallites at 230 kelvin

96 This implies that stacking-disordered ice crystallites either are more sta

97 y of mixing cubic and hexagonal layers makes stacking-disordered ice the stable phase for crystallite

98 der atmospheric temperatures is at all sizes stacking-disordered, consisting of random sequences of c

99 static contributions, halogen bonding, pi-pi-stacking, dispersive forces, cation-pi and anion-pi inte

100 selenophene copolymers indicated that the pi-stacking distance increased with incorporation of the la

101 n addition, in 9-fluorobenzo[g]chrysene, the stacking distance is short at 3.365 A and there is an ad

102 thermal stability, and despite a large pi-pi stacking distance of 4.26 A, it demonstrates excellent p

103 Layer-stacking domain walls in bilayer graphene are emerging a

104 l-protein complex components in the membrane stacking during the biogenesis.

105 les with oxidizing agents may have caused a 'stacking'-effect and a more effective dough lift.

106 conditions, the boundary disappears, and the stacking ends when all the micelles have electrophoretic

107 and anticodon and then is stabilized by base-stacking energy over three successive codons.

108 lt energy calculations revealed an intrinsic stacking fault (ISF) along 112{111}, which is the partia

109 2D layered materials is known as rotational stacking fault (RSF), but the coexistence of multiple RS

110 of copper and other metals exhibiting small stacking fault energies and/or large elastic anisotropy,

111 a deformation mechanism in metals with high stacking fault energies.

112 First principle generalized stacking fault energy calculations revealed an intrinsic

113 ntation to ~5-8 nm near the edge, yielding a stacking fault energy of 30 +/- 5 mJ/m(2).

114 The generalized stacking fault energy surfaces associated with shearing

115 verned by common features of the generalized stacking fault energy surfaces of hcp pyramidal planes a

116 urs in aluminium simply because of its giant stacking fault energy.

117 eforms via full dislocations due to its high stacking fault energy.

118 uld be partially relieved by the creation of stacking fault layers near the twin boundaries.

119 Both vacancy-type stacking fault tetrahedra (SFT) and interstitial loops c

120 surface square site adjacent to a subsurface stacking fault.

121 red-cubic stacking, to serve as a nucleus of stacking fault.

122 itio modelling suggests that it has negative stacking-fault energy at 0K and high propensity for twin

123 30 degrees twist GB is characterized with a stacking faulted structure.

124 k, influenced by the presence of basal-plane stacking faults (BSFs).

125 al defects in the LNO precursor material (2D stacking faults and 3D inclusions) for determining the r

126 lock heights can vary by means of SbTe-based stacking faults and using a vacancy-mediated kink motion

127 were observed in the final products, due to stacking faults at the boundary between newly deposited

128 which are preceded by planar defects such as stacking faults generated by partial dislocations.

129 ion density and the presence of long segment stacking faults in gamma phase.

130 energy structure that inhibits thickening of stacking faults into twins, leading to significant impro

131 tructure, the semi-molten morphology and the stacking faults of the primary M7C3 carbide are observed

132 nning initiated through the formation of two stacking faults separated by a single atomic layer, and

133 ferent (17)O environments, the percentage of stacking faults was found to be ca. 10%.

134 High densities of dislocations and stacking faults were also observed in the parent metals

135 each region were ascribed to the presence of stacking faults within the Li2MnO3 structure.

136 of crystal defects such as grain boundaries, stacking faults, dislocations, and point defects, as wel

137 We find stacking faults, inherent to the highly two-dimensional

138 12x8x8 pore architecture and the absence of stacking faults, respectively.

139 f a partial dislocation in between these two stacking faults.

140 s, Kmer-Sum and PWM (Position Weight Matrix) stacking, for full-length binding motif prediction.

141 For the first time, stacking free energies between five nucleobases and anth

142 The antiaromatic stacking furthermore allows a delocalization of the pi-e

143 l alternative to conventional strategies for stacking genes and traits to address many impending envi

144 luding hydrogen bonding, ion pairing, and pi stacking, have become mainstays of catalyst design, the

145 The molecular forces that lead to grana stacking, however, are poorly understood.

146 eractions: electrostatic interactions, pi-pi stacking, hydrogen bonds, coordination bonds, and dynami

147 The size-dependence of aromatic stacking in an organic solvent was examined.

148 ticity for function suggesting a role for pi-stacking in melanosomal amyloid assembly.

149 eloped in order to circumvent the issues for stacking in nonaqueous MCE.

150 Our analysis suggests that pi-pi stacking in supramolecular complexes can be characterize

151 e bulge sequence to 5'-ACCCC-3' ablates base stacking in the loop and globally reorients the SLII str

152 Our results show that both Kmer-Sum and PWM stacking in the new pentamer approach along with a simpl

153 This compound exhibits enhanced pi-pi stacking in the solid state, unusually large blue-shifts

154 nzannulated analogue, exhibits long-range pi-stacking in the solid state.

155 veals that the spiro-structures facilitate J-stacking in the solid state.

156 e previously unobserved properties and layer stackings in WSe2 will be interesting for spintronics an

157 exhibit low fidelity and identified a unique stacking interaction between the newly incorporated nucl

158 Based on pi-pi stacking interaction between transition metal nanosheets

159 The other disrupted a predicted pi-pi stacking interaction between two phenylalanine residues

160 The stacking interaction of an aromatic residue at position

161 in which the styrene moiety engaged in a pi-stacking interaction with Arg55 of cyclophilin A (Cyp A)

162 identified at the bottom of these pockets in stacking interaction with one glucosyl moiety.

163 Also, we found that separating pairing vs. stacking interactions allowed RACER to distinguish folde

164 ion rates, supporting the proposal that base-stacking interactions are involved in the translocation

165 trained simulations shows that urea-aromatic stacking interactions are stabilizing and long lasting.

166 Stacking interactions between aromatic compounds and nuc

167 by hydrogen interactions between base pairs, stacking interactions between neighboring bases and long

168 ork demonstrates that the balance of base pi-stacking interactions between the ends of DNA duplexes,

169 onformation, which is often stabilized by pi-stacking interactions between the lesion nucleobase and

170 idate the ubiquitous nature of urea-aromatic stacking interactions by analyzing experimental structur

171 Analysis of the data suggests that stacking interactions dominate over hydrophobic effects

172 In RACER, base pairing and stacking interactions each provide an approximate stabil

173 Urea-nucleobase stacking interactions have been shown to be crucial in u

174 I adopts a locally compact structure wherein stacking interactions in a conserved 5'-AUAGC-3' bulge p

175 flipping, we examined each of the individual stacking interactions in structural, energetic and funct

176 C-H...Cl, and Cl...Cl short contacts and pi-stacking interactions in their 3D network structures.

177 Thus, the size-dependence of aromatic stacking interactions is consistent with the dominance o

178 van der Waals dispersion forces in aromatic stacking interactions occurring in organic solution is s

179 of cyclopentadiene to cinnamates arises from stacking interactions that favor the addition of the die

180 cytoplasmic site nucleates headgroup-dipole stacking interactions that form a chain of lipid molecul

181 ding sites +1 and +2, residue W1065 provides stacking interactions to the glucosyl moiety.

182 Upon anchorage, pi-stacking interactions with the graphene sheets provide f

183 Besides its stacking interactions with the tRNA elbow, stalk movemen

184 ined, this lesion can disrupt W-C H-bonding, stacking interactions, and minor groove hydrations to so

185 ntained two binding pockets supporting pi-pi stacking interactions, sterically separated by the D469T

186 exhibit a shifted and rotated type of pi-pi stacking interactions, which render this series a semico

187 orientation through hydrogen bonding and pi-stacking interactions.

188 ilized by intermolecular [C-H...O] and pi-pi stacking interactions.

189 idue switching between salt bridge and pi-pi stacking interactions.

190 e cell pivots around the other, resulting in stacking into a column.

191 n-plane strain and/or changing the number of stacking layers.

192 RNA sequences can produce G-quartets, whose stacking leads to the formation of a G-quadruplex (G4).

193 mits the invasion, upon incorporation of the stacking linker, bisLNA invasion is significantly more e

194 However, when two stacking linkers were incorporated, tail-less bisLNAs we

195 ere placed in a different configuration in a stacking manner, where the liquid sample that may contai

196 This is because of the micelle to solvent stacking mechanism (effective electrophoretic mobility r

197 multilayer composites are fabricated using a stacking method.

198 ation technique, reversed electrode polarity stacking mode (REPSM), was applied for Ag NPs analysis w

199 skites, the ACI perovskites have a different stacking motif and adopt a higher crystal symmetry.

200 The solid-state structure shows an eclipsed stacking motif with the electron-poor ammonium methyl gr

201 Compared to stacking multiple layers into a SC, this method enables

202 Stacking of 2D materials generates heterogeneous interfa

203 a defined structure and retains the basepair stacking of all three stems.

204 Stacking of antiaromatic pi-systems has been proposed to

205 This structure is formed by intermolecular stacking of aromatic residues, which would spatially con

206 ed from the same rotationally mismatched vdW stacking of BNNSs and can be inter-converted by simply t

207 le, provided the first examples of direct pi-stacking of carbo-benzene rings, with inter-ring distanc

208 Structural analyses suggest a face-to-face stacking of DNA nanosheets with peptides aligned perpend

209 hesizable metal distannide, NaSn2, with a 3D stacking of flat hexagonal layers and examined a known c

210 erences in water distribution due to altered stacking of granules and/or altered hydration of PS due

211 tional changes of SPs based on the 1D exotic stacking of hydrogen-bonded azobenzene hexamers.

212 uced graphene oxide (ERGO) through the pi-pi stacking of hydroxybenzyl and imidazolium groups with ER

213 lied on the low-yield manual exfoliation and stacking of individual 2D TMD layers, which remain impra

214 ostructures, as an alternative to artificial stacking of individual two-dimensional crystals.

215 In parallel with the exfoliation and stacking of intrinsically layered crystals, atomic-scale

216 W and can be viewed as a disordered ABC-type stacking of MWW-layers.

217 Second, differences are seen in the base stacking of pairs in dinucleotide steps, arising from en

218 orientational order caused by unidirectional stacking of plank-like molecules into elongated aggregat

219 The strict stacking of plant photosynthetic membranes into granal s

220 3D stacking of plasmonic nanostructures is achieved using a

221 tructural motifs--nanoscale brick-and-mortar stacking of platelets and microscale twisting of the fib

222 the bonding interaction to substituents: The stacking of polarizable pi radicals leads to attractive

223 A regular quintuple layer stacking of the Bi2Se3 film is found, with the exception

224 The crossing points in the weave feature pi-stacking of the bridging linker.

225 In YFPs, the pi-stacking of the chromophore with Tyr203 reduces its elec

226 hat depend on the composition, thickness and stacking of the component layers.

227 steps, arising from energetically favorable stacking of the nitro group in with pi-electrons of the

228 f R10 constitute an adhesive patch formed by stacking of the side chains of two arginine residues and

229 it is generally acknowledged that Bernal AB stacking of the sp(2) carbon layers is the unique crysta

230 enter of the continuous G-tract and 3'-to-5' stacking of the terminal residues.

231 onor-acceptor interactions resulting from pi-stacking of the thiophene donor of one molecule with the

232 terwoven fibers, resulting from the columnar stacking of the triangles in an alternating R-Delta/S-De

233 ng via base-pairing, they can interact by pi-stacking of their duplex ends.

234 After stacking of tissue layers and tissue maturation at the a

235 The stacking of two highly conjugated diarylviologens in one

236 They are formed by the stacking of two or more G-quartets that are linked toget

237 n der Waals interactions ensure the vertical stacking of two-dimensional honeycomb lattices made of s

238 he energy barrier by "locking in" favourable stackings of graphene sheets.

239 well-ordered and smooth films with a face-on stacking on conventional substrates such as metals and o

240 hT functions as a molecular chaperone by end stacking on terminal G4-quartets and promoting the assem

241 The effect of this stacking on the ability of hPolbeta to extend from 8-oxo

242 n folic acid receptors integrated through pi-stacking on the graphene coated SPR chip and the FAP ana

243 The Ru complex was immobilized by pi-pi stacking onto CNTs that had been deposited by drop casti

244 The system uses a scalable stacking or folding geometry that generates 110 volts at

245 -sheet structured species and maintain their stacking order without exchanging their subunits.

246 with the modulation of structural symmetry, stacking orders and spin-orbit coupling, transitional me

247 onjugated radicals are capable of forming pi-stacking "pancake-bonded" dimers.

248 points, NMR spectra, crystal structures, and stacking patterns in the solid state.

249 graphy and separations and for enhancing the stacking performance of field amplified sample injection

250 merical calculation however shows that scale stacking primarily induces the observed colour appearanc

251 nd that these complexes are reorganized by a stacking procedure to form fibril-like and granular nano

252 an obliquely scanning laser eliminates the z-stacking process, then allows highly efficient 3D OCT an

253 n, degenerate bond exchange, and noncovalent stacking processes.

254 mply that chromatin compaction by nucleosome stacking protects nucleosomal DNA from external forces u

255 We find that Golgi reassembly stacking protein (GRASP), an unconventional secretion pa

256 ein of 65 kDa (GRASP65) and Golgi reassembly stacking protein of 55 kDa (GRASP55) were originally ide

257 Golgi reassembly stacking protein of 65 kDa (GRASP65) and Golgi reassembl

258 GRASP55) were originally identified as Golgi stacking proteins; however, subsequent GRASP knockdown e

259 rameter in the topmost layer, and by altered stacking relative to the layers underneath.

260 The success in stacking relies on the generation and control of the sta

261 The sample stacking SDS CGE technique can be adopted for size-based

262 HRTEM and XRPD simulations show that the stacking sequence is almost random, with each layer bein

263 -type structure (beta-MgCl2) at 0.7 GPa: the stacking sequence of the Cl anions are altered resulting

264 sion on substrate and grown TMD surface, TMD stacking sequence, chalcogen/metal ratio, flake edge dif

265 The as-grown WTe2 maintains two different stacking sequences in the bilayer, where the atomic stru

266 heets together with CVD-MoS2 in the vertical stacking shows that a strong change transfer occurs from

267 in sterics and connectivity, independent of stacking, significantly affect tertiary folding and appe

268 es of acoustic focusing, steering and, after stacking single meta-surfaces into layers, the more comp

269 ve and improved LOD is subjected to particle stacking, small particle size, and compact cluster.

270 inating one-dimensional system that features stacking solitons structurally and quantum valley Hall b

271 its homoleptic complex, but also provided pi-stacking stabilization in the heteroleptic complex.

272 ons in the coordination process and extra pi-stacking stabilization in the resultant heteroleptic com

273 imple and rapid online sample concentration (stacking strategy) in a battery operated nonaqueous MCE

274 However, the stacking structure of LDHs limits the exposure of the ac

275 The translation of stacking techniques used in capillary electrophoresis (C

276 dislocation spirals form noncentrosymmetric stacking that gives rise to strong second-harmonic gener

277 egree of charge transfer permitted by the pi-stacking that occurs between the toluene and the N-oxyl

278 s of dislocation spirals and different layer stackings that are determined by the number, rotation, a

279 By stacking the ultra-thin III-Nitride epitaxial layers per

280 ersion and electrostatic components of pi-pi stacking, the hydrophobic effect, and possible hydrogen-

281 energetically prefers a face-centered-cubic stacking, to serve as a nucleus of stacking fault.

282 of the oligomer species based on beta-sheet stacking topologies is proposed.

283 roblem, for the first time, we produced gene stacking transgenic tomato, in which Arabidopsis PAP1 (p

284 Centimeter-sized segregated stacking TTF-C60 single crystals are crystallized by a m

285 e liquid cells are readily prepared by pi-pi stacking two clean single-crystal graphene TEM grids, in

286 a superlattice-like nanostructure formed by stacking ultra-thin ( </= 4 monolayers) AlN barriers and

287 Loss of nucleosome stacking upon removal of the H3 tails in combination wit

288 pportunities for the construction of complex stackings used to introduce or tune functionality, but t

289 We present an alternative method for layer stacking using a magnetic apparatus, which facilitates f

290 To elucidate why an exclusive ftf stacking was not observed, electrostatic potential surfa

291 ain solitons with alternating AB/BA or AB/AB stacking which are separated by incommensurate domain wa

292 ads to more pronounced, yet staggered, chain stacking, which generally leads to higher electronic cou

293 h graphene layers and maximal area of Bernal stacking, which is necessary for bandgap tunability.

294 eeds to be strong enough to ensure a face-on stacking while it needs to be weak enough to avoid film

295 dification that is suggested to disrupt base stacking, while maintaining base pairing.

296 he alpha-terpinyl cation is stabilized by pi-stacking with a tryptophan side chain (tryptophan-253).

297 t in analyte detection, which is expected in stacking with hydrodynamic injection.

298 ility to establish stable face-to-face pi-pi-stacking with the LRH-1 residue His-390, as well as by a

299 shapes have intermediate noncentrosymmetric stackings with mixed properties.

300 relative phase stability of different oxygen stackings with respect to the K content.