ライフサイエンスコーパス: phenomena

1 ormulating, analyzing and predicting complex phenomena.

2 ovides a route to rationalize thermophoretic phenomena.

3 platform for realizing many exotic physical phenomena.

4 tructure and our understanding of collective phenomena.

5 f this shielded domain of polyionic chemical phenomena.

6 amples particularly related to the oxidation phenomena.

7 commodating both evolutionary and ecological phenomena.

8 simulations elucidate the governing buckling phenomena.

9 stems that exhibit a multitude of collective phenomena.

10 any dynamic systems display complex emergent phenomena.

11 ross SCO1 pedigrees remain poorly understood phenomena.

12 and but few artificial systems exhibit these phenomena.

13 research fields related to complex nonlinear phenomena.

14 ing process operates in all of these climate phenomena.

15 We investigated these two counteracting phenomena.

16 al properties that arise from combining both phenomena.

17 method for the development of simulating the phenomena.

18 ading to the discovery of previously unknown phenomena.

19 s underlying the spatial propagation of both phenomena.

20 anding molecular mechanisms underlying these phenomena.

21 nditions can give rise to striking dynamical phenomena.

22 hetic materials and complex condensed matter phenomena.

23 articles and forces that might explain these phenomena.

24 ithout showing self-quenching or aggregation phenomena.

25 when studying cellular and biotechnological phenomena.

26 of low-level visual and high-level cognitive phenomena.

27 ve emerged as key players in neuroplasticity phenomena.

28 onment by adopting its point of view in such phenomena.

29 , with greater attention paid to less common phenomena.

30 lations predict several novel and unexpected phenomena.

31 an allow for the exploration of new physical phenomena.

32 anding of physical, chemical, and biological phenomena.

33 m for topological, valleytronic, and optical phenomena.

34 n der Waals engineering to produce interface phenomena.

35 synthesis in the discovery of new biological phenomena.

36 es play in dictating intergranular corrosion phenomena.

37 iphile-mineral interactions in diverse other phenomena.

38 ponent of propofol-induced cortical spectral phenomena.

39 s holmium, acts to suppress Walker breakdown phenomena.

40 as a 'counter' for a vast range of molecular phenomena.

41 , being the trigger of multiple nonclassical phenomena.

42 nexpected insights into apparently unrelated phenomena.

43 transmission abnormalities in complex mental phenomena.

44 forcing that precedes switching and bursting phenomena.

45 for quantitative analysis of these nonlinear phenomena.

46 mans have implicated insular cortex in these phenomena.

47 l to a broad range of chemical and transport phenomena.

48 mically-induced stochastic pinning/depinning phenomena.

49 ormational control and molecular recognition phenomena.

50 materials, and are central to many important phenomena.

51 methodology is applicable to a wide range of phenomena across many energy technologies, emissions red

52 molecular and cellular levels, yet how these phenomena affect cortical circuit activity remains uncle

53 nd opacity decreasing are severe degradation phenomena affecting oil paints with zinc oxide, one of t

54 that our model can reproduce human cognitive phenomena and achieve comparable memory performance in b

55 exploring many exotic transport and optical phenomena and applications predicted for topological cry

56 overing previously unknown relationships and phenomena and as a powerful way of understanding the imm

57 ongbird as a model system for studying these phenomena and contribute to our understanding of statist

58 sing platform for exploring condensed matter phenomena and developing technological applications.

59 es reveal the compensatory character of some phenomena and explain the highly diverse and unpredictab

60 alaria to improve our understanding of these phenomena and facilitate the design of mitigation strate

61 Taking advantages of capillary phenomena and gravity forces, the solution transportatio

62 onal materials, quantum-mechanical transport phenomena and high mobility can be observed.

63 ed to design and understand nanoscale chiral phenomena and highlight important recent advances releva

64 science due to the prevalence of oscillatory phenomena and highly multivariate experimental recording

65 nanostructures to study coherent electronic phenomena and improve the operation of nanoelectronic de

66 ely studied as templates for unique physical phenomena and in the design of reconfigurable electronic

67 is known about the kinetics of such assembly phenomena and it remains a key challenge to elucidate ho

68 sted functional role in numerous biophysical phenomena and its importance as a general mechanism of h

69 ls, potentially leading to new environmental phenomena and novel applications.

70 ditional route to realize conceptual quantum phenomena and novel device functionalities, such as real

71 s but it could also lead to insight into new phenomena and novel routes to synthesize new phases.

72 tronic materials including various transport phenomena and optical responses.

73 versatile platform for exploring topological phenomena and potential applications.

74 These phenomena and properties are dictated by the nature of i

75 simulations designed to unravel GB migration phenomena and set it in a GB migration context that acco

76 test the model by simulating 10 experimental phenomena and show that it can provide an adequate accou

77 ceptual predictions by controlling transport phenomena and spatial distribution of diffusible signals

78 play important roles in naturally occurring phenomena and technological processes.

79 Here, we review the phenomena and their underlying mechanisms by which macro

80 mechanisms and DMH representation of the two phenomena and thus to understand how the same lesion cou

81 , making it possible to explore new physical phenomena and to foresee novel applications in the field

82 solids has been reported, resulting in novel phenomena and unique control of the emission, absent in

83 polymer nanoparticles optical properties and phenomena, and discuss the current understanding of exci

84 eling, composite PFSA membranes, degradation phenomena, and PFSA thin films are presented.

85 e the interplay of nonlinearities, transport phenomena, and spatial effects.

86 ire on subjective quality of vision, optical phenomena, and spectacle independence was performed.

87 ork," a model that explains diverse cortical phenomena, and suggest that a decreasing E/I ratio with

88 ate chemical and diffusional proton exchange phenomena, and to improve the interpretation of results

89 s enabled by defects, size effects, critical phenomena, anharmonicity, and the spin degree of freedom

90 sed to realize conditions for the discovered phenomena are applicable to quite different multicompone

91 Multiexcited-state phenomena are believed to be the root cause of two exige

92 Here, we propose that these phenomena are due, in part, to the deployment/secretion

93 Several phenomena are identified, including surface reconstructi

94 These phenomena are induced by applying a high frequency alter

95 Here I argue that these phenomena are inextricably linked and reflect similar un

96 We find that these phenomena are manifestations of unexpected in-plane anis

97 r, the molecular mechanisms underlying these phenomena are not fully understood.

98 rmined which of these abnormal neurocellular phenomena are primary events and sufficiently contributo

99 cal and biological systems suggests that the phenomena are robust and can survive in the face of diso

100 The two phenomena are the result of two different modes of self-

101 Chemical exchange phenomena are ubiquitous in macromolecules, which underg

102 While these phenomena are well described in vertebrates, it is uncle

103 widespread, species-specific or diverse such phenomena are.

104 ental tests, we found that these memory-like phenomena arise from a confluence of rapid, short-lived

105 Coherence phenomena arise from interference, or the addition, of w

106 e disks, and identified a range of different phenomena arising from competing energy contributions.

107 tribute to the understanding of such diverse phenomena as atmospheric structure, mass transfer, magne

108 Phenomena as diverse as political mobilization, health p

109 areas of physics, underpinning such diverse phenomena as ferromagnetism, superconductivity, superflu

110 dying shock waves and other high-strain-rate phenomena, as well as a broad range of processes induced

111 Considering the unique optical phenomena associated with plasmonic nanostructures, the

112 lous single particle blinking, and twinkling phenomena associated with polaron motion.

113 These phenomena associated with reduced expression of the FOXP

114 etermine and quantitatively evaluate kinetic phenomena associated with supramolecular assemblies, in

115 level reveals novel nanoscale crystal-growth phenomena associated with the lateral size and surface c

116 mplex in that chemical, electronic, and spin phenomena at atomic scales can manifest in their collect

117 izing the current understanding of plasmonic phenomena at extremely short length scales, we discuss t

118 ennial-scale events are common hydroclimatic phenomena at least in the East Asian monsoon system.

119 e to rich chemical, electronic, and magnetic phenomena at the interface.

120 t reaction conditions play a role in driving phenomena at the level of the whole system.

121 Understanding such phenomena at the mechanistic level can facilitate the de

122 Size-dependent phenomena at the nanoscale influence many applications,

123 e for researchers interested in studying any phenomena based on intermolecular interactions with liga

124 parameters to replicate specific behavioral phenomena, because we were interested in the emergent co

125 e data or a mechanistic understanding of the phenomena being studied.

126 Energy transfer phenomena between Mn(2+) and Yb(3+) occur only at elevat

127 ave propagation and light-matter interaction phenomena beyond the conventional diffusive regime.

128 map errors impact our understanding of these phenomena, but quantifying these impacts is difficult be

129 velocity, results reveal that high-injection phenomena can already take place in the far field and be

130 Here we demonstrate that the two phenomena can be linked.

131 These phenomena confer resistance during current therapies, th

132 g magnetic field, charged particle, and wave phenomena context for Juno's passage over the poles and

133 Better mechanistic understanding of these phenomena could provide targets for therapies that modul

134 This review of assembly-line phenomena, covering the literature up to 2017, should th

135 tivity, as well as proteolytic and lipolytic phenomena, decisive steps in such a ripening process, co

136 These phenomena decline with age, but are stable in littermate

137 althy outbred rats could indicate that these phenomena do not always model heritable absence epilepsy

138 Modern phenomena driving cetacean ecology, such as trophic dyna

139 artificial honeycomb lattice-exhibits novel phenomena due to the tunable interplay between topology

140 for a better characterisation of proteolysis phenomena during the processing of dry-cured ham.

141 five decades, new and unexpected RNA-related phenomena emerged almost yearly.

142 rch effort, much remains unknown about these phenomena, especially the causative agents of many coral

143 Cooperative chirality phenomena extensively exist in biomolecular and organic

144 o quantum-mechanical signals, however, these phenomena face fundamental challenges that arise from th

145 and computational solutions to exploit these phenomena for cancer therapy and biomarker discovery.

146 further understanding of electronic/magnetic phenomena found in LAO/STO.

147 mation and self-organization are fascinating phenomena found widely in nature and in laboratory envir

148 A range of different physiological phenomena, from precisely synchronized spiking to broadl

149 The understanding of degradation phenomena gained from this study is important for the fu

150 Observing these phenomena has generally required conditions far removed

151 The dynamics of this intrinsic phenomena has not been demonstrated in previous studies.

152 p between these morphological and behavioral phenomena has not been shown.

153 A variety of emergent phenomena have been enabled by interface engineering in

154 Although these phenomena have been extensively investigated in the last

155 Theoretically, these two phenomena have been thought to arise through very differ

156 Plasmon-induced phenomena have recently attracted considerable attention

157 It hybrids multiple physical phenomena i.e. magnetic flux leakage, induced eddy curre

158 These two opposing yet coexisting phenomena implicate the potential of altered CD4(+) T-ce

159 The discovery of emergent phenomena in 2D materials has sparked substantial resear

160 gnitude evaluation to a wide variety of core phenomena in decision making and challenge the idea that

161 offer a unifying explanation for contextual phenomena in fields ranging from visual psychophysics to

162 lution under selective pressure are inherent phenomena in life, and but few artificial systems exhibi

163 ientifically and technologically significant phenomena in LPBF, including melt pool dynamics, powder

164 However, studies of these phenomena in mango fruit are limited by the lack of geno

165 eter-scale mechanisms for these polymer-like phenomena in nanoparticle systems.

166 in insights into one of the most fundamental phenomena in nature: biodiversity that seems to be exclu

167 surement is to capture underlying biological phenomena in numerical form.

168 and tailored to engineer magnetic functional phenomena in oxide thin films.

169 In addition to targeting these phenomena in parents and children, depression prevention

170 We provide a detailed analysis of tipping phenomena in periodically forced systems and show that,

171 with respect to the impact of these cellular phenomena in shaping synaptic transmission.

172 ans of bridging the subcellular and cellular phenomena in sickle cell disease.

173 T) remains among the most thoroughly studied phenomena in solid state physics, but the complexity of

174 Realizing robust quantum phenomena in strongly interacting systems is one of the

175 Exotic phenomena in systems with strongly correlated electrons

176 se individual male fitness, yet are uncommon phenomena in the animal kingdom.

177 We argue that the model can account for more phenomena in the chosen set than these other similar in

178 We investigated these phenomena in the human visual system using fMRI.

179 not achieved parity with other global change phenomena in the level of concern and interest it receiv

180 nanoscale-specific electrostatic levitation phenomena in their sensitive layer design.

181 t, instead of supersolidity, revealed exotic phenomena including quantum plasticity and mass supertra

182 oyed to investigate a number of experimental phenomena including substituent effects on reactivity, c

183 role in our understanding of a wide range of phenomena, including genomic imprinting, X-chromosome in

184 iquid, reflects a complex set of cooperative phenomena, including H/D exchange across the solid-liqui

185 l is crucial in the study of a wide range of phenomena, including planetary formation and asteroid im

186 ibrium systems can display a rich variety of phenomena, including self-organized synchronization and

187 Immunological phenomena, including skewed cytokine production, have be

188 ey fingerprints of several important climate phenomena, including the evolution of the Arctic sea ice

189 Named phenomena influence microflow and nanoflow electrospray

190 Understanding how these cellular and network phenomena interact is vital to decipher the roles of emo

191 Combining these three quantum phenomena into a single compound has important scientifi

192 criticality of understanding the biochemical phenomena involved with cytoskeleton/membrane attachment

193 roperties and mechanism behind these complex phenomena is crucial in pharmaceutical research.

194 and understanding the rules that govern such phenomena is essential.

195 The exploration of such phenomena is making remarkably important their applicati

196 s, one of the most understated developmental phenomena is that of straightness - a root will grow dow

197 emarkably little is known about the physical phenomena leading to nucleation of new perfect crystals

198 e excellent systems for studying fundamental phenomena linked to the operation of technical catalysts

199 These phenomena look very promising for the improvement of per

200 hasising the important role this cooperative phenomena may play in the RecA-facilitated homology sear

201 reases the firing rate of pyramidal neurons, phenomena mimicked by exogenously applied ATP.

202 cer metastasis, and many other multicellular phenomena, motile cells group into a collective and migr

203 the lungs and on skin by particle transport phenomena near cooking areas.

204 nonlinear softening, hardening, and veering phenomena (near crossing), where the frequencies of two

205 Through transport phenomena not yet understood, free fatty acids in the oi

206 roteins is central to a number of biological phenomena, notably the gating of stretch activated ion c

207 ead attention due to both the novelty of the phenomena observed and the ability to reliably pattern t

208 Different phenomena observed during vdW epitaxy process are analys

209 The phenomena observed included the development of a porous

210 a model is inadequate and that many physical phenomena occur during grain boundary migration for whic

211 tural laws and principles that determine the phenomena occurring during the olive oil oxidation.

212 sively change our understanding of essential phenomena occurring within the bone marrow.

213 wing how structural priming drives real-life phenomena of bilingual language use beyond the priming o

214 which were characterized by the contrasting phenomena of cortical network fragmentation and global s

215 mensional archetypal system to explore novel phenomena of geometrically frustrated magnets.

216 e color palette open to image other cellular phenomena of interest, as demonstrated by our simultaneo

217 al studies can reveal population and network phenomena of relevance for understanding mechanisms of c

218 Ro-vibrational Stark-associated phenomena of small polyatomic molecules are modelled usi

219 method provides a way of exploring many-body phenomena on a programmable quantum simulator and could

220 ine a potential roadmap to an era of quantum phenomena on demand.

221 s and chemistry behind these novel transport phenomena on the nanoscale have been explored in depth o

222 sses is essential to understand many natural phenomena, particularly in biology, including the cell-f

223 Understanding physical phenomena peculiar to nanoconfined water paves the way f

224 , the results of which suggest that cultural phenomena pervade the lives of these apes, with potentia

225 fundamental understanding of nonequilibrium phenomena.-Phillips, R.

226 nsition metal oxides host a wealth of exotic phenomena ranging from charge, orbital and magnetic orde

227 that inhibit the tau-peptide aggregation, a phenomena related to Alzheimer's disease.

228 id to highlight possible artifacts, and side phenomena related to the absorption and relaxation prese

229 robiome to better recapitulate physiological phenomena relevant in the natural world outside the labo

230 The proposed model explains a wide range of phenomena reported in rivalry, including the three hallm

231 However, "swing effect" or "gate opening" phenomena resulting in an enlargement of the windows hav

232 Drop drying and deposition phenomena reveal a rich interplay of fundamental science

233 ain type shows extremely weak superstructure phenomena revealed by atomic-resolution scanning TEM (ST

234 tails of the circuit mechanisms behind these phenomena, revealing new roles for inhibition in control

235 Both these phenomena show a rather linear dose-response correlation

236 how a wide variety of biological and social phenomena spread in social networks.

237 properties, causing a variety of nontrivial phenomena such as circular dichiroism for chiral molecul

238 egrees of freedom, giving rise to remarkable phenomena such as colossal magnetoresistance and metal-i

239 Dipole-dipole interactions, which govern phenomena such as cooperative Lamb shifts, superradiant

240 a complex interplay between ageing and other phenomena such as disuse and diseases.

241 ms also provide opportunities to study novel phenomena such as magnetism which broadens the range of

242 optical media for state-of-the-art photonic phenomena such as multi-photon absorption, triplet-tripl

243 has inspired a number of intriguing optical phenomena such as one-way transport and Weyl points.

244 Phenomena such as perturbation growth, necking and buddi

245 to be involved in a wide range of biological phenomena such as protein half-life regulation, protein-

246 pectra in a single ion (CaH(+)) and coherent phenomena such as Rabi flopping and Ramsey fringes.

247 for understanding a range of time dependent phenomena such as response times, long and medium term p

248 tention as a mediator of complex psychiatric phenomena such as stress and addiction.

249 Likewise, 2D materials exhibiting correlated phenomena such as superconductivity, magnetism, and ferr

250 interaction (SOI) can induce unique quantum phenomena such as topological insulators, the Rashba eff

251 the regulation of several addiction-related phenomena, such as drug intake, withdrawal, and relapse.

252 o exhibit interesting and potentially useful phenomena, such as highly efficient energy transfer, ano

253 point to central mechanisms underlying this phenomena, such as increased activation of NMDA receptor

254 are likely to evolve in response to cultural phenomena, such as language and tool-making, which are a

255 ts has been shown to lead to many intriguing phenomena, such as loss-induced transparency, unidirecti

256 cts on understanding higher order ecological phenomena, such as pathogen persistence.

257 These two phenomena suggest that inorganic halide perovskite could

258 To analyze these phenomena, surrogate fly ashes were synthesized to mimic

259 y generated in foods through the proteolysis phenomena taking place during processing.

260 uely set to study complex out-of-equilibrium phenomena thanks to the simplicity of the underlying Sto

261 ocyanin-production system reveals a range of phenomena that accompanies anthocyanin biosynthesis in t

262 vity and ferromagnetism are two antagonistic phenomena that combined can lead to a rich phenomenology

263 ch model naturally occurring transcriptional phenomena that control social defeat stress behavior.

264 to focus on the characterization of graphene phenomena that drives innovation rather than a lengthy d

265 We reveal the phenomena that govern the behavior of this type of devic

266 Chiral media exhibit optical phenomena that provide distinctive responses from opposi

267 of topological phase transitions and related phenomena that range from criticality of quantum metal-

268 er increasingly complex questions concerning phenomena that range from the genetic, molecular, and ce

269 in origin from the various exchange coupling phenomena that underlie conventional spin electronics (s

270 systematic review and analysis of different phenomena that violate a basic principle, Kasha's rule,

271 This allows the merging of state-of-the-art phenomena that was hitherto attainable in media that dem

272 Along with these phenomena, the abundance of mature piRNAs also globally

273 able of interpreting relevant electrokinetic phenomena, the results gathered also provide necessary i

274 italizes on two established physical organic phenomena; the alpha-effect and the Thorpe-Ingold effect

275 It can render some complex affective phenomena theoretically tractable, help refine accounts

276 ic quantifiable behavioral and physiological phenomena, therefore, serve as extremely useful tools fo

277 els are beneficial for understanding complex phenomena; therefore, we trialed the application of late

278 coalescence, recent work has combined these phenomena through a reconciliation structure, the labele

279 o open a route for exploring exotic physical phenomena through phonon properties in Weyl semimetals.

280 We study the phase diagram and the pseudogap phenomena throughout the entire BCS-BEC crossover, using

281 nce from experimental, acute, and persistent phenomena to demonstrate the advantages of adopting a st

282 otechnology that would allow molecular-level phenomena to drive such movements in artificial systems

283 istical learning and the origin of human ERP phenomena to unexpected stimuli.SIGNIFICANCE STATEMENT T

284 To achieve this, the phenomena under scrutiny should be within the scope of f

285 These phenomena underscore the importance of tracking all neur

286 dual RBCs and focuses on layer-specific flow phenomena until a cortical depth of 1 mm.

287 ologies allow characterization of functional phenomena using a large number of related phenotype meas

288 damental to investigating quantum mechanical phenomena using light.

289 Linking these phenomena, we found that vesicles containing the PKHD1/P

290 We further found that these phenomena were accompanied by increased synaptic mitocho

291 However, interesting phenomena were observed where certain inks dominated ove

292 nsformation optics applied to thermoelectric phenomena, where thermal and electric flows are coupled

293 e3, we realize emergent interfacial magnetic phenomena which can be tailored through artificial struc

294 of polarization have been limited to surface phenomena, which has restricted the probing of the dynam

295 been repeatedly misinterpreted as epigenetic phenomena, which has resulted in inaccurate conclusions

296 he transport and intrinsic, non-Fermi liquid phenomena, which includes the lifetime separation.

297 lid state physics, but the complexity of the phenomena, which usually involves cooperation of many de

298 xploited to produce switching and transition phenomena whose kinetics are governed by the same Allen-

299 e presence of the coiled-coil replaced those phenomena with CL-dependent binding and localization.

300 distinct, impeding efforts to understand the phenomena within a single conceptual framework.