ライフサイエンスコーパス: condensed

1 e postfusion conformation, but appeared more condensed.

2 fficient to alter DNA accessibility within a condensed 25-nucleosome array.

3 , where they are then dissolved by a liquid (condensed) acceptor phase flowing through the membrane l

4 her sugar phosphodiesters or the products of condensed amino acids with ketoacids or sugars.

5 er composition and reduce the amount of both condensed and gaseous SrO, which emits undesirable orang

6 s involved in defining the interface between condensed and open compartments for structural regulatio

7 Coexisting liquid-expanded, liquid-condensed, and gas phases could be visualized due to dif

8 e existence of polycarboxylated aromatic and condensed aromatic formulas, with CHON-type COO KMD form

9 h double-bond equivalence (DBE) aromatic and condensed aromatic molecular formulas were detected, 66%

10 N-containing, lipidlike, and condensed aromatic structure (CAS)-like NOM were selecti

11 ass and fossil fuels, forming a continuum of condensed aromatic structures.

12 in an increase in both the concentrations of condensed aromatic, acidic, and phenolic carbon species.

13 an be classified as aliphatic, aromatic, and condensed aromatics in approximately equal measure, whil

14 ifficult in the nematic phase to stabilize a condensed array of free-standing disclination lines with

15 e early (high-redshift) Universe efficiently condensed at the centres of dark-matter haloes when gas

16 ibes an experimentally unidentified class of condensed-bicyclic triazolo-thiadiazoles targeting PTP1B

17 Condensed-bicyclic triazolo-thiadiazoles were synthesize

18 loring how intercalating drugs interact with condensed biological structures such as chromatin and ch

19 On postimplant day 1, the condensed bone interface exhibited microfractures and os

20 xcitation spectrum and structure factor of a condensed Bosonic system in the phonon regime drops line

21 ivo that small nanocomplexes composed of DNA condensed by a blend of biodegradable polymer, poly(beta

22 We further found that the nucleosome array condensed by either the GH5_pMut or the globular domain

23 Incoming sensory input is condensed by our perceptual system to optimally represen

24 description, since the viral dsDNA molecule condensed by proteins (core) lacks icosahedral order cha

25 efficient, whereas the same nucleosome array condensed by the wild-type globular domain of H5 showed

26 ll proteins assemble around and bud from the condensed cargo complex.

27 atory for realistic calculations on large or condensed chemical systems and for various intramolecula

28 red an early plasma membrane leakage without condensed chromatin aggregates.

29 dynamic histone dimethylation, resulting in condensed chromatin and gene transcriptional repression.

30 ow that Repo-Man, via Nup153, is enriched on condensed chromatin at the nuclear periphery and at the

31 on, BPA exposure and co-exposure transiently condensed chromatin compared with untreated and KBrO3-on

32 lectively, our results suggest that TADs are condensed chromatin domains depleted in active chromatin

33 DNA is packaged into condensed chromatin fibers by association with histones

34 L, through differential stabilization of the condensed chromatin state, established a 'mechanical mem

35 (P <0022), similar rates of ICL/R, and more condensed chromatin structure compared with nonresponder

36 R and DSB/R, comparable rates of ICL/R, more condensed chromatin structure, and higher sensitivity th

37 which CENP-A is deposited onto an existing, condensed chromatin template is not understood.

38 ge initiation, BPA-exposed cells showed less condensed chromatin than cells treated with KBrO3 alone;

39 r induce an irreversible, anomalous state of condensed chromatin that ultimately results in apoptosis

40 en chromatin to a mature T cell with tightly condensed chromatin.

41 Properly condensed chromosomes are necessary for accurate segrega

42 ayer (PCL), a sheath of proteins surrounding condensed chromosomes during mitosis.

43 uring mitosis, the viral DNA associates with condensed chromosomes utilizing spindle microtubules for

44 Partially condensed chromosomes were not arranged on metaphase pla

45 A condensed cis-Golgi was the first abnormality observed u

46 ly distributed along the length of the SC in condensed clusters.

47 most consistent with the predictions of the condensed-complex and cholesterol bilayer domain models

48 1, 9, 15, 16, and Y, which consist of highly condensed constitutive heterochromatin, showed statistic

49 consisted of lamellae-like structures of the condensed cortical vitreous near or adherent to the neur

50 Simulations indicate that PAH pulls in condensed counterions from solution to avoid charge-repu

51 , pigmentary abnormalities, and telogen-like condensed dermal papillae.

52 The condensed DNA structure is not well ordered and we infer

53 new structural mechanism: the formation of a condensed "double cluster" (Hf12O8(OH)14), analogous to

54 f remarkable structural plasticity entailing condensed forebrain neuroarchitecture.

55 In their condensed form, they display quantum hydrodynamic featur

56 m was to determine the impact of anthocyanin condensed forms extracted from purple corn pericarp on c

57 Condensed forms had degradation kinetics similar to mono

58 the complete extract, and an extract without condensed forms.

59 cules within MFM-300(In), reminiscent of the condensed gas in pure component crystalline solids.

60 Liquid core nanodroplets containing condensed gaseous fluorocarbons can be vaporized at clin

61 This highly condensed genome also has to be efficiently injected int

62 When the phospholipid forms a liquid-condensed Gibbs monolayer, which is the case for dipalmi

63 s via polyradical intermediates to produce a condensed graphitic structure or fullerene.

64 e an enzyme that specifically methylates the condensed guaiacyl lignin precursor coniferyl alcohol.

65 Fs, including pioneer factors, is impeded by condensed H3K27me3-containing chromatin.

66 vides a scaffold for the anchoring of highly condensed heterochromatic DNA to the nuclear envelope, t

67 hly ordered structure with an outer layer of condensed heterochromatin, an inner layer enriched in th

68 Highly condensed heterochromatin, including knobs, replicated d

69 lly inactive loci are enriched within highly condensed heterochromatin.

70 The resulting condensed, highly crosslinked ECM impeded drug permeatio

71 Slow-moving condensed-ice or dust particles may explain this haze.

72 solvent cavitation occurs and water that had condensed inside the confined area is released as a vapo

73 this set, 911 GENCODE neighboring genes are condensed into 400 expanded gene models.

74 highly oversampled collection of mutants is condensed into a next-generation sequencing library in a

75 We produce a reference genome, condensed into chromosomes, for the Gulf pipefish.

76 embrane-associated platelet polyphosphate is condensed into insoluble spherical nanoparticles with di

77 he mechanism by which alpha-amino acids were condensed into polypeptides before the emergence of enzy

78 s indicate that the missing baryons have not condensed into virialized haloes, but reside throughout

79 ology changes from dispersed circular liquid-condensed (LC) domains in a continuous liquid-expanded (

80 ees C<Tm, the liquid expanded (LE) to liquid condensed (LC) phase transition of milk-SM monolayers wa

81 aration is thought to drive the formation of condensed liquid-like droplets of protein, RNA, and othe

82 FUS mutations abrogate the reversibility of condensed liquids and/or hydrogels, leading to neurotoxi

83 agnetic iron oxide nanoparticles (SPION) and condensed magnetic clusters are classified according to

84 The condensed materials in the filtrated aerogel particles c

85 y of higher-order chromatin structure from a condensed maternal and a naive paternal genome to genera

86 investigate the nonequilibrium dynamics in a condensed matter analog, a 2D ensemble of colloidal part

87 ls are expected to open the next frontier of condensed matter and materials science.

88 sitions in systems ranging from cosmology to condensed matter and quantum materials.

89 Shock waves in condensed matter are of great importance for many areas

90 tion and spectroscopy of single molecules in condensed matter arose out of the study of inhomogeneous

91 ear optics of a normal gas or a phonon-based condensed matter Bogoliubov theory.

92 The complexity embedded in condensed matter fertilizes the discovery of new states

93 ntum-space lattice, we realize fully tunable condensed matter Hamiltonians, allowing us to probe the

94 accurate descriptions for the P-vs-V data of condensed matter in a wide region of pressure studied ex

95 hydrogen (LMH) is the most abundant form of condensed matter in our solar planetary structure.

96 Active materials represent a new class of condensed matter in which motile elements may collective

97 roportions, an unreported phenomenon in hard condensed matter like glass.

98 avenues for the study of strongly correlated condensed matter models in ultracold gases.

99 because the approximations made to describe condensed matter or high-temperature plasmas are invalid

100 experimental platform may lead to solitonic condensed matter phases and technological applications.

101 als offer a promising platform for exploring condensed matter phenomena and developing technological

102 Insights into many other condensed matter phenomena have come from colloidal syst

103 study of new synthetic materials and complex condensed matter phenomena.

104 aterial, attracting tremendous interest from condensed matter physicists, chemists, semiconductor dev

105 ers coexist, is one of the hottest fields in condensed matter physics and materials science.

106 Dirac physics has aroused great interests in condensed matter physics ever since the discovery of gra

107 The Feynman relation, a much celebrated condensed matter physics gemstone for more than 70 years

108 sical systems.Topological effects known from condensed matter physics have recently also been explore

109 One of the most important goals of condensed matter physics is materials by design, i.e. th

110 oblems and problems in materials science and condensed matter physics that can be formulated as inter

111 onon, a roton or a magnon, is used in modern condensed matter physics to describe an elementary colle

112 direct analog to the Lifshitz transition in condensed matter physics, a change in the topology of is

113 rentz invariance, however, is not present in condensed matter physics, and by generalizing the Dirac

114 were originally predicted and discovered in condensed matter physics, but they find their counterpar

115 ic systems is a major breakthrough in recent condensed matter physics, finding appropriate materials

116 In particular, in condensed matter physics, scattering mechanisms, loss of

117 ic gases have realized numerous paradigms of condensed matter physics, where control over interaction

118 ces, ranging from biological applications to condensed matter physics.

119 emarkable platform to study new phenomena in condensed matter physics.

120 Te3 films stands out as a landmark of modern condensed matter physics.

121 ely in recent years in materials science and condensed matter physics.

122 allic hydrogen has been a great challenge in condensed matter physics.

123 als is one of the most fascinating topics in condensed matter physics.

124 ature is the most fundamental information in condensed matter physics.

125 glass has attracted significant interest in condensed matter physics.

126 s is one of the major trends in contemporary condensed matter physics.

127 critical phenomenon in materials science and condensed matter physics.

128 nds are the focus of much recent interest in condensed matter physics.

129 -BEC-like crossover by means of conventional condensed matter probes.

130 Such a semimetal not only provides a condensed matter realization of the anomalies in quantum

131 These materials give rise to condensed matter realizations of many important concepts

132 ing that structure is a primary objective of condensed matter research.

133 low for the first time to access dynamics of condensed matter samples ranging from femtoseconds to se

134 n one of the central topics of magnetism and condensed matter science.

135 ive for the future realization of Weyl arcs, condensed matter supersymmetry and other fascinating phe

136 and exploitation of quantum tunnelling in a condensed matter system.

137 Our findings suggest that optical and condensed matter systems at the SUSY points can be used

138 ed anomaly could be experimentally probed in condensed matter systems known as Weyl semimetals.

139 experimentally until the recent discovery of condensed matter systems such as topological superconduc

140 zero modes are quasiparticle excitations in condensed matter systems that have been proposed as buil

141 The unique conduction properties of condensed matter systems with topological order have rec

142 mions are ubiquitous in nature, appearing in condensed matter systems, chemistry and high energy phys

143 In condensed matter systems, the time scale for such "ultra

144 n is challenging in fluid mechanics and soft condensed matter systems.

145 ultra-broadband investigations into complex condensed matter systems.

146 -relativistic three-dimensional particles in condensed matter systems.

147 ly describe and predict emergent behavior in condensed matter systems.

148 cal states, have been extensively studied in condensed matter systems.

149 have been predicted to exist in a variety of condensed matter systems.

150 es of the topological nodal-line fermions in condensed matter systems.

151 ing mesoscopic order-disorder transitions in condensed matter systems.

152 parts in high-energy physics or conventional condensed matter systems.

153 d in the early universe or quantum fluids in condensed matter systems.

154 g recent advances in quantum information and condensed matter theory, we have drawn upon various bran

155 waves in a variety of physical systems, from condensed matter to artificial lattices.

156 being studied in diverse fields ranging from condensed matter to quantum gravity.

157 of phenomena covering many disciplines from condensed matter to quantum information and particle phy

158 origins and stability of aperiodic order in condensed matter using model block polymers.

159 of colloids, as well as in fundamental soft condensed matter, by widening the accessibility of targe

160 The dynamics of many-body systems spanning condensed matter, cosmology, and beyond are hypothesized

161 dy a variety of effects interfacing optical, condensed matter, quantum and statistical physics.

162 In condensed matter, the frustrated rare-earth pyrochlore m

163 he complexity and variability of atmospheric condensed matter, which includes water, salts, and a mul

164 xotic properties of relativistic fermions in condensed matter.

165 quantum spin-Hall topological insulators in condensed matter.

166 tands as a landmark in the quantum theory of condensed matter.

167 scillations have been extensively studied in condensed matter.

168 nd ongoing realizations of Rashba physics in condensed matter.

169 nts a rising interest in quantum physics and condensed matter.

170 s contributed to our modern understanding of condensed matter.

171 s very small, a few molecular lengths in the condensed matter.

172 s, including cosmology, particle physics and condensed matter.

173 ated great excitement in the low-temperature condensed-matter community.

174 Pushing the frontiers of condensed-matter magnetism requires the development of t

175 ate between 'up' and 'down'-is a key goal in condensed-matter physics and materials science because i

176 materials has attracted immense attention in condensed-matter physics because they host new quantum s

177 A major challenge in condensed-matter physics is active control of quantum ph

178 um information processing, as well as a rich condensed-matter physics playground with which to explor

179 n electrons has long been a focused topic in condensed-matter physics since it has led to the discove

180 niques and devices from atomic, quantum, and condensed-matter physics to detect tiny signals due to n

181 their properties is a central goal of modern condensed-matter physics, which holds promise for a new

182 topologies constitute a major part of modern condensed-matter physics.

183 n Hall (QSH) phase is an exotic phenomena in condensed-matter physics.

184 gh-energy theories, quantum information, and condensed-matter physics.

185 l discoveries and conceptual developments in condensed-matter physics.

186 rgy-momentum dispersion (1, 2) , providing a condensed-matter platform for studying quasiparticles wi

187 materials which at low energies constitute a condensed-matter realization of massive relativistic fer

188 Interfaces and boundaries in condensed-matter systems often have electronic propertie

189 In condensed-matter systems, a wide range of phenomena stem

190 perimental platforms, including electrons in condensed-matter systems, trapped atoms and photons.

191 For interaction of light with condensed-matter systems, we show with simulations that

192 eviously inaccessible nanoscale magnetism in condensed-matter systems.

193 alies are signatures of phase transitions in condensed matters and have traditionally been studied us

194 s the dedifferentiation of mature cells to a condensed mesenchymal blastema, from which replacement t

195 ially confining azobenzene photomechanics in condensed microparticulate materials.

196 ined to self-administer cocaine or sweetened condensed milk (SCM).

197 open states are stably maintained in highly condensed mitotic chromatin to ensure faithful inheritan

198 every cell cycle, alternating between highly condensed mitotic structures that facilitate chromosome

199 , quercetin was nanoencapsulated within soft-condensed nanostructures of BLG and sodium alginate (ALG

200 med dendritic morphologies, with bean-shaped condensed nuclei, absence of alpha-smooth muscle actin o

201 nter-molecular FRET between H1s within fully condensed nucleosome arrays suggests a regular spatial a

202 uce a stable alpha-amino carbanion which was condensed on a large variety of alkyl halides.

203 Thus, water condensed on the sensor surface only during forcible bre

204 Results demonstrate that sulfuric acid and condensed organosulfur species formed in photooxidation

205 During the meltdowns, a type of condensed particle, a caesium-rich micro-particle (CsMP)

206 sts an order-to-disorder transition for this condensed phase at 480-490 K, with a sharp reduction in

207 The BQT allows for condensed phase chemical reactions to be initiated by co

208 ze biological macromolecules intact from the condensed phase into the gas phase for nanospray postion

209 t concentration of oxidation products in the condensed phase is predicted for a scenario assuming the

210 phidynamic crystals are an emergent class of condensed phase matter designed with a combination of la

211 Condensed phase membrane introduction mass spectrometry

212 Interstellar dust (ISD) is the condensed phase of the interstellar medium.

213 charge state on the energetic proton in the condensed phase of water results in the strongly suppres

214 In this study, condensed phase particles collected from around the deto

215 he morphology and chemical identity of these condensed phase postblast particles remains undetermined

216 protein/nucleic acid-ligand interactions or condensed phase properties by force field-based methods

217 the importance of accounting for the role of condensed phase reactions in altering the composition of

218 and as such, they have been used to create a condensed phase reactivity profile for O((3)P).

219 In fact, tau in the condensed phase state does not reveal any immediate chan

220 cular forms in which HOMs are present in the condensed phase upon gas-particle partitioning remain un

221 itions but might be expected to occur in the condensed phase upon heating or with further lowering of

222 all-metal cluster-like fragments isolated in condensed phase was previously shown to be mainly ascrib

223 n-carbon double bonds were identified in the condensed phase which survived ozonolysis during new par

224 talyst deactivation have been studied in the condensed phase with both classical and quantum methods

225 the properties of water from the gas to the condensed phase with unprecedented accuracy, thus openin

226 d to the study of molecules in gas phase, in condensed phase, and at interfaces.

227 ified industrial catalyst, ambient pressure, condensed phase, ca. 0.03 m monomer).

228 ate simulations of water from the gas to the condensed phase, leads to a definitive molecular-level p

229 disproven claims of HAsAsH formation in the condensed phase, we report the isolation and structural

230 imilar systems that have been studied in the condensed phase.

231 of intermediates, some the same as in their condensed-phase counterparts.

232 soporous metal-organic framework NU-1000 via condensed-phase deposition where the MOF is simply subme

233 products between m/z 300 and 350, the major condensed-phase end products were levulinic acid (LLA) a

234 Traditional condensed-phase methods are of limited use for character

235 Ultrafast electron transfer in condensed-phase molecular systems is often strongly coup

236 The composition of condensed-phase organic compounds in SOA is measured usi

237 This condensed-phase photochemical process may produce a few

238 ultimately led to an entirely new branch of condensed-phase physics and chemistry.

239 In addition, a wide array of oxygenated, condensed-phase products has been observed.

240 oducts of squalene ozonolysis are known, the condensed-phase products have not been characterized.

241 We present an analysis of condensed-phase products resulting from an extensive oxi

242 Unlike the corresponding condensed-phase reaction, where catalytic proton exchang

243 The condensed-phase SOA photodegradation processes could the

244 We use this "optoDroplet" system to study condensed phases driven by the IDRs of various RNP body

245 ver, this assumption is commonly violated in condensed phases due to mechanical instabilities.

246 lecular driving forces and the nature of the condensed phases remain poorly understood.

247 different experimental regimes: molecules in condensed phases, isolated in supersonic jets and helium

248 comparison of the IR-spectra in the gas and condensed phases, we propose putative assignments for th

249 difficult to observe in symmetric dimers or condensed phases.

250 -containing donor-acceptor chromophores with condensed pi-systems and sterically regulated inter-aryl

251 ate energy gaps below 2.0 eV are obtained in condensed pi-systems, with lower energy gaps for twisted

252 t with the equilibrium state for an ordinary condensed polymer.

253 meric phenolic compounds but lower levels of condensed polyphenols than LI and IP apples, while the r

254 ium chloride on the structural properties of condensed potato starch undergoing a thermally induced g

255 tion deals with the structural properties of condensed potato starch-sodium chloride systems undergoi

256 mperature would not significantly affect the condensed quantities.

257 rged as one of the most remarkable states of condensed quantum matter where exotic electronic phases

258 The preserved organics represent condensed remains of the cornified epidermis and, likely

259 the intractably vast energy landscapes into condensed representations such as barrier trees or basin

260 ation of a CA sheet that associates with the condensed ribonucleoprotein (RNP) complex.

261 an be visualized as RNA foci containing this condensed RNA and associated proteins.

262 the molecular interactions and morphology of condensed starch.

263 c and nitro-aromatic will partition into the condensed state for a wide range of ambient conditions i

264 Nuclear remodeling to a condensed state is a hallmark of spermatogenesis.

265 nsation during G2 and the maintenance of the condensed state thereafter.

266 an still occur, all within a phase-separated condensed state, or coacervate.

267 ncode for the distinguishing features of its condensed states.

268 Guaiacyl lignin is regarded as the condensed structural unit.

269 prediction of physicochemical properties of condensed systems is a longstanding goal of theoretical

270 by hot pressing at 120 degrees C to produce condensed systems that covered a range of moisture conte

271 ctly linked to physicochemical properties of condensed systems, and therefore, an understanding of th

272 ents were in the range of 0.02-3.90 mg/g and condensed tannin contents were in the range of 1.77-18.8

273 Levels of total phenolics, flavonoids, condensed tannins and antioxidant activities from aratic

274 inimal effects on herbivore resistance (e.g. condensed tannins and insect herbivores).

275 nolic components (total phenols, flavonoids, condensed tannins and phenolic acids) of almond kernels

276 h correlate with polyphenols, flavonoids and condensed tannins contents, and so, confirm the fascinat

277 Condensed tannins could be used to favorably alter starc

278 The addition of grape seeds as the source of condensed tannins in fruit wine may provide a solution f

279 e mean degree of polymerization (mDP) of the condensed tannins increased.

280 complexing partially gelatinized starch with condensed tannins on in vitro starch digestibility.

281 acetone at variable concentrations, and the condensed tannins were quantified with the phloroglucino

282 MW fraction had the highest total phenolics, condensed tannins, and antioxidant activities, followed

283 ained much higher total phenolic substances, condensed tannins, and total antioxidant activity than W

284 elatin], molecular weights, total phenolics, condensed tannins, and various antioxidant activities.

285 existed in the contents of total phenolics, condensed tannins, antioxidant activities, and PPC among

286 d-insoluble fraction (AIF) and 2.3-fold more condensed tannins; both are relatively difficult to deco

287 6% w/w) on the physicochemical properties of condensed tapioca starch.

288 cker, and laterally up to 20 A(2)/lipid more condensed than Ld domains.

289 luble differentiation factors, stiffened and condensed the nucleus, and increased mechanosensitivity

290 Condensed to a three-tier score, the system was highly r

291 by column chromatography, and can be readily condensed to give a range of imidazole and pyrazine deri

292 cs, we propose that the gain fiber should be condensed to short lengths in order to generate high ene

293 regulatory regions and promoters, and fibers condensed up to 10-fold containing coding regions of act

294 Moreover, the H1 CTD becomes more condensed upon condensation of extended nucleosome array

295 The goal of this condensed version of the much larger document is to make

296 heet-like structure that associates with the condensed viral genome to produce the mature infectious

297 n is rich in anthocyanins, some of which are condensed with flavanols.

298 teroaromatic, and alkyl carboxaldehydes were condensed with oxalyl boronates to afford substituted bo

299 to the mitochondrial matrix where glycine is condensed with succinyl coenzyme A to yield delta-aminol

300 post-treatment, treated tumors appeared less condensed with widening of the stromal areas which incre