ライフサイエンスコーパス: dynamic

1 ed on whether target site DNA is annealed or dynamic.

2 cancer cells to survive and proliferate are dynamic.

3 blasts under unhindered growth conditions is dynamic.

4 g connectivity) can influence metapopulation dynamics.

5 ys in the predictability of Cenozoic climate dynamics.

6 modelling to unravel the singlet and triplet dynamics.

7 ge with immune escape and viral evolutionary dynamics.

8 m plant to fungus or governed by sink-source dynamics.

9 important for understanding NoV transmission dynamics.

10 nges, which test different theories of price dynamics.

11 ide considerable advance notice of infection dynamics.

12 nd apparent changes in right whale migratory dynamics.

13 but complementary roles reflected in network dynamics.

14 ongly with intense brain-wide neural network dynamics.

15 in is emerging as a critical regulator of MT dynamics.

16 estigation of nucleosome and chromatin fiber dynamics.

17 Dynamic (13)C MRSI was performed following injection of

18 In all lesions, static and dynamic (18)F-FET PET parameters were obtained (i.e., me

19 asks such as foraging, the internal state is dynamic(5-8).

20 g bats build internal prediction models from dynamic acoustic stimuli to anticipate the future locati

21 ssumptions may fail at predicting population dynamics across a wide range of animal taxa.

22 Cistrome analysis revealed the dynamic activities of a variety of cis-regulatory elemen

23 ce of gene expression regulation through the dynamic AGO2-RNA association for human neuronal developm

24 Ab initio molecular dynamics (AIMD) simulations confirm that aluminum hydrol

25 tuberculosis, which shows extremely complex dynamic allostery: three distinct aromatic amino acids j

26 d that Amot's role in actin organization and dynamics also contributes to promoting eVP40-mediated eg

27 Assembly of the Tat translocon is dynamic and is triggered by the interaction of a Tat sub

28 13)C-methyl group side chain fast time-scale dynamics and (15)N backbone fast time-scale dynamics are

29 attributed to a combination of passive body dynamics and active sensorimotor control.

30 We combine fluid dynamics and advanced in situ transmission electron micr

31 nificantly modulates protein-RNA interaction dynamics and can facilitate real-time communication betw

32 hannels link these outputs to the downstream dynamics and can independently explain the typical decay

33 cular dynamics studies to elucidate slipping dynamics and conformations of (CAG)n TR hairpins.

34 Using extended molecular dynamics and enhanced sampling free-energy simulations,

35 hey struggle to fully capture the geospatial dynamics and factors driving the dispersal of pathogens

36 The regulatory dynamics and functional significance of putative aging-r

37 This work advances our understanding of the dynamics and functions of EMT plasticity during cancer m

38 Multiple pathogens affect mitochondria dynamics and functions to influence their intracellular

39 Membrane tension pores determine organelle dynamics and functions, giving rise to physical observab

40 thermodynamics for understanding biological dynamics and functions.

41 m (Sorghum bicolor L.) growth, soil nutrient dynamics and interactions (antagonism or synergism) in a

42 e fundamental relationship between glutamate dynamics and plasticity, and the mechanisms linking thes

43 es direct insight into cell metabolism, cell dynamics and protein activity.

44 ystems makes it challenging to predict their dynamics and resilience under future disturbance regimes

45 l advance our understanding of cancer growth dynamics and response to therapies.

46 s with quantitative proteomics to reveal the dynamics and specificity of Parkin-dependent ubiquitylat

47 d Xenopus frog species influence microtubule dynamics and spindle length.

48 scuss new developments in the nonequilibrium dynamics and thermodynamics of living systems, giving a

49 of anorexia (e.g., via drugs) affect disease dynamics and virulence evolution.

50 erize selectivity mechanisms using molecular dynamics and X-ray crystallography.

51 ieved by canonical network architectures and dynamics, and that the resulting responses resemble obse

52 c Structure Methods, Non-Adiabatic Molecular Dynamics, and Theoretical Spectroscopy represent the thr

53 he present study, we examine whether similar dynamics are also observed during grasping movements, wh

54 nsient actin structures regulating organelle dynamics are challenging to detect with fluorescence mic

55 dynamics and (15)N backbone fast time-scale dynamics are fully consistent, demonstrating that fast f

56 ir biological communities and related carbon dynamics are highly sensitive to changes in climate.

57 , although saccades are more frequent, their dynamics are more sluggish (i.e. show lower peak velocit

58 These synaptic dynamics are timed by Rac1, with decreased and increased

59 r, as networks' complex underlying formation dynamics are usually unobserved or difficult to describe

60 Further investigation of cell contact dynamics as guidance cues may yield new insights into th

61 linking genetic factors with cardiovascular dynamics, as evaluated by phase coherence.

62 etylation of alpha-tubulin, and promotes the dynamic assembly of microtubules, remodels the cytoskele

63 RMT3 cooperates with RPS2B to facilitate the dynamic assembly/disassembly of the 90S/SSU processome d

64 stem exhibits physiology-dependent temperate dynamics at environmentally relevant E. huxleyi host den

65 Molecular dynamics based folding simulations that rely on knowledg

66 al for the first time, to our knowledge, the dynamic behavior whereby Tfh cells migrate in human GC a

67 for this, with the specific suggestion that dynamic body acceleration (DBA) be used as a proxy for m

68 ic phase transitions), we present a unifying dynamic bonding model for LnB(6) that explains simultane

69 n produce spheroids with similar bulk growth dynamics but differing internal compositions (the propor

70 n leveraging their account to illuminate the dynamics by which this occurs, and in particular, to she

71 -corrected DFT calculations, quasi-classical dynamics calculations, and experiments to study in detai

72 diversity and modulates gene expression in a dynamic, cell type-specific manner.

73 les migratory cell polarization and controls dynamic cellular processes, such as focal adhesion forma

74 hodology that uses scRNA-seq to characterize dynamic cellular programs and their molecular drivers, a

75 gape distance accounted for the majority of dynamic changes in architecture.

76 al to primary follicle and is accompanied by dynamic changes in gene expression(1), but the gene regu

77 we performed serial breath tests to monitor dynamic changes in neutrophil elastase activity during l

78 Stem cells undergo dynamic changes in response to injury to regenerate lost

79 we show that cytotoxic chemotherapies induce dynamic changes in the tumor immune microenvironment tha

80 s emerges from the chemical landscape of the dynamic chemistry at the junction.

81 ream CTCF binding site (here named EACBE) in dynamic chromatin regulation is unknown.

82 Analogues of the conformationally dynamic Claritin (loratadine) and Clarinex (desloratadin

83 pecialized sensory receptors able to provide dynamic coding of sound signals.

84 n accurately capturing certain stereotypical dynamic community behaviors in noisy situations.

85 evelop a quantitative theory of human T cell dynamics compatible with the statistical laws of reperto

86 Our results indicated dynamic competition between the NRs governed by two mech

87 uided behaviour, whereas the low-dimensional dynamic component could provide additional temporal info

88 Conclusion This study indicated that dynamic contrast agent-enhanced perfusion MRI parameter,

89 equences such as diffusion-weighted imaging, dynamic contrast enhanced sequences, and magnetic resona

90 ume transfer constant and plasma volume from dynamic contrast-enhanced MRI as well as DeltaR(2)* peak

91 Deterministic trends with dynamic covariates explain over 35% of the variability i

92 Therefore, this work demonstrates that dynamic crowding nontrivially alters transcription kinet

93 y alters transcription kinetics and presents dynamic crowding within the bulk nuclear nanoenvironment

94 on the ultrafast dipole moment reorientation dynamics demonstrates that refocusing of the diffusive l

95 ries argue that bacterial membrane potential dynamics deserve more attention.

96 We propose Dynamic Distribution Decomposition (DDD), an operator ap

97 Raman mapping has been used here to track "dynamic doping", an important concept in organic electro

98 and it is thus unclear how eco-evolutionary dynamics drive the evolution of constituent taxa.

99 rootstocks are coupled with fine root growth dynamics during drought and return of soil moisture.

100 functions of repressive histone methylation dynamics during inflammatory responses remain enigmatic.

101 llenges of monitoring chromophore structural dynamics during the light-induced processes.

102 ncy to the active site via subtle changes in dynamics, enabling exquisite fine-tuning of delivery of

103 ercome the inherent lipophilicity of VSDs by dynamic encapsulation and high-affinity ligands to targe

104 nd mobile genetic elements (MGEs) compete in dynamic environments, evolving strategies to sense the m

105 and the lung, and thus in highly diverse and dynamic environments.

106 ly self-associated ensembles that coexist in dynamic equilibrium with mM1000, with the latter appeari

107 ed from specific origin sites established by dynamic events.

108 Our results show that general and dynamic feature replacement methods achieve a higher per

109 acement reaction on meta-DNA to transfer the dynamic features of DNA into the meta-DNA.

110 fferent patterns of RelA and c-Rel signaling dynamic features, such as variations in duration or time

111 overs an unexpected, eukaryotic specific and dynamic fidelity checkpoint implemented by eIF5B in conc

112 ssional chess players exhibited an increased dynamic fluidity, expressed as a higher number of occupi

113 , the importance of tightly regulated Ca(2+) dynamics for mitochondrial axonal transport, and the the

114 g approach, for example, the design of novel dynamic functional soft materials for future use in flex

115 Emerging evidence indicates dynamic functions for various MAPs in activity-dependent

116 tro gastro-intestinal digestion using a semi-dynamic gastric model, a static intestinal model and an

117 hPSC lines exhibited first- and second-phase dynamic glucose-stimulated insulin secretion.

118 ant genomes are remarkably plastic, and that dynamic GNs generate new biosynthetic pathways in differ

119 Also, the investigation of PC population dynamics has mostly relied on nucleotide analog incorpor

120 Fusion dynamics have been studied by tracking viruses within li

121 with the ease of global travel, and societal dynamics, immunologic naivete of the host population, an

122 rk provides a mechanism for how early clonal dynamics imprint the hierarchy of T cell clone sizes wit

123 This suggests a source-and-sink dynamic in which subcamps with greater average infectiou

124 ) enable high-resolution imaging of dopamine dynamics in behaving animals.

125 resentation of tropical forest structure and dynamics in Earth system models (ESMs).

126 analysis of vessel dilation and constriction dynamics in large volumes.

127 vides powerful means to quantify biochemical dynamics in living cells.

128 To examine viral population dynamics in orally infected mice, we produced over 100 C

129 need to precisely control complex microbial dynamics in spatially extended environments, requiring t

130 Ca(2+) binding restricts the dynamics in the Ca(2+)-binding region.

131 ntraspecific-interactions, and soil nutrient dynamics in the context of biodiversity-ecosystem functi

132 We examined microbial community dynamics in this population utilizing novel graphical ne

133 LAC) approaches allow measurement of protein dynamics, including protein translation and degradation.

134 Tissue morphogenesis requires dynamic intercellular contacts that are subsequently sta

135 r a prompt Coulomb explosion, the subsequent dynamics is characterized by a rapid oblate-to-prolate s

136 g how the brain represents and computes with dynamic latent variables.

137 anomaterials were characterized by XRD, FTIR dynamic light scattering (DLS), FESEM, HRTEM, and EDX sp

138 noprecipitation methods and characterised by dynamic light scattering, electron microscopy, encapsula

139 re control strategy, NGD sensitivity and the dynamic linear range can be adjusted and detection limit

140 quid phase separation (LLPS), forming highly dynamic liquid droplets.

141 mechanical analysis (DMA) measurements under dynamic loading conditions mimicking natural mastication

142 In this study, molecular dynamics (MD) is used to study the binding between hPXR

143 on resonance characterization, and molecular dynamics (MD) simulations initiated from Rosetta predict

144 ), neutron reflectometry (NR), and molecular dynamics (MD) simulations were employed to study the mem

145 the specimens were harvested and analyzed by dynamic mechanical analysis (DMA) measurements under dyn

146 extracellular matrix (ECM) is a complex and dynamic meshwork of cross-linked proteins that supports

147 e mesocosms experienced thirty-five weeks of dynamic methane, oxygen and nitrate concentrations.

148 es to intact OR genes (2:1), suggestive of a dynamic mode of evolution.

149 rocess under realistic conditions and within dynamic molecular regimes often remain difficult to asce

150 s provides a unique platform for introducing dynamic nano- and microdroplets into cells and organisms

151 w that the density scaling law for molecular dynamics near the glass transition provides a sensitive

152 n system mobilizes a gene promoter through a dynamic network of polymeric nuclear actin.

153 port both experiments and simulations on the dynamic network self-assembly and subsequent collapse of

154 climate oscillations that have facilitated a dynamic of isolation and secondary contact.

155 Knots play a fundamental role in the dynamics of biological and physical systems, from DNA to

156 croscopy is increasingly used to capture the dynamics of biological processes at the molecular level

157 4 MPa) and H3 (9.8 +/- 0.7 MPa) and that the dynamics of both canonical and CENP-A nucleosomes are pr

158 upled climate simulations producing temporal dynamics of climate en route to stable global mean tempe

159 While spatio-temporal dynamics of clot formation are well characterized, the c

160 dies (Golfier et al., 2020) observed diverse dynamics of condensins that perform one-sided, symmetric

161 To get a deeper insight into the imine bond dynamics of covalent organic cages, we studied the forma

162 ty with other critical resources on seasonal dynamics of ecosystem productivity remains largely unkno

163 e can be used to study the single-cell-level dynamics of EET not only on electrode surfaces, but also

164 dies are of great interest in describing the dynamics of epidemics, they struggle to fully capture th

165 s link engagement of the CRN to the temporal dynamics of episodic memory and highlight the role of al

166 ifferent mechanical load regimes and altered dynamics of feedback loops, illustrate that the waiting

167 ts and provide valuable information on local dynamics of fluorophores at their sites of attachment on

168 Here we describe the in vivo dynamics of hunger-promoting AgRP neurons during the dev

169 contribute to intestinal development and the dynamics of injury-induced regeneration.

170 ates of ecological interactions and long-run dynamics of interacting populations.

171 ses to ecological uncertainty may affect the dynamics of interspecific interactions and shape the cou

172 To shed light on the dynamics of ITx allograft rejection and treatment resist

173 The wavefront dynamics of key nonlinear processes including Kerr self-

174 r, tools to track the systemic behaviour and dynamics of leukocytes non-invasively in vivo are lackin

175 tracing to predict the spatial and temporal dynamics of lighting for a rendered mature Glycine max (

176 LM exposes the organizational and functional dynamics of lipid-lipid, lipid-protein, and lipid-dye in

177 anisms controlling the self-organisation and dynamics of membrane-bound organelles such as the Golgi

178 pinnings of both actomyosin activity and the dynamics of microtubule/motor assemblies in vitro as wel

179 We studied the interdomain dynamics of MMP1 on fibrin without crosslinks using sing

180 ly, we were able to study the spatiotemporal dynamics of N(2) production due to denitrification in ri

181 mical level, analyzing the subcellular redox dynamics of NAD in living plant tissues has been challen

182 The dynamics of normalized weights turn out to be equivalent

183 to an immediate restructuring of the working dynamics of our group of imaging technologists that had

184 tablished, the mechanism of assembly and the dynamics of PIC components are not fully understood.

185 Here, in exploring the dynamics of spindle orientation in mechanically distinct

186 ffect of defects on DNA supercoiling and the dynamics of supercoiling in molecular detail.

187 ssion influences the experimentally reported dynamics of SWR events.

188 ribute to the establishment and evolutionary dynamics of TAD boundaries.

189 on critically depend on the organization and dynamics of the actin cytoskeleton, and the small, monom

190 e displacements into timescales based on the dynamics of the bulk liquid, we show that we can predict

191 oundation that could be adapted to study the dynamics of the complexes inside intact and photosynthet

192 ulation results indicate high conformational dynamics of the cytosolic region that regulate NADPH/NAD

193 AM-binding region and observe changes in the dynamics of the loops that form the knot.

194 a wide range of changes in the structure and dynamics of the partners involved.

195 ke can provide a better understanding of the dynamics of the pasture ecosystem and serve as a basis f

196 nd infection control strategies based on the dynamics of the pathogen lineages derived from networks

197 uracy, while making no assumptions about the dynamics of the systems.

198 directed towards modeling the structure and dynamics of the underlying networks of financial ecosyst

199 The dynamics of theorized network structures called ring att

200 ed computational approaches to deduce global dynamics of thin filament components by energy landscape

201 inian processes driving the eco-evolutionary dynamics of treatment-resistant cancer populations.

202 twork models were constructed to compare the dynamics of tropoelastin and fibrillin individually as w

203 noisy measurements, we are able to infer the dynamics of unobserved species, external forcing, and th

204 d, using molecular dynamics simulations, the dynamics of VCBC have been characterized.

205 tects EVs without a priori hypotheses on the dynamics of vesicle formation.

206 textual centrality captures more complicated dynamics on networks than traditional centrality measure

207 three-state majority-vote model for opinion dynamics on scale-free and regular networks.

208 The Golgi is a dynamic organelle whose correct assembly is crucial for

209 Mitochondria are highly dynamic organelles that can exhibit a wide range of morp

210 arrested metastable multi-droplet state is a dynamic outcome of the interplay between two competing p

211 text of understanding neural computations as dynamics over relatively low-dimensional manifolds forme

212 al the existence of a millisecond time scale dynamic pathway that spans HNH from the region interfaci

213 als underwent PET/CT scanning with a 120-min dynamic PET scan centered on the pancreas.

214 s endothelial cell metabolism to support the dynamic phenotype remains to be established.

215 Lack of dynamic plasticity is a significant limitation for artif

216 These results suggest that gaze dynamics play a key role in action selection during chal

217 The porous HOF, ABTPA-2, has robust dynamic porosity (SA(BET) = 1183 m(2) g(-1)) and exhibit

218 As a result, the dynamic potential response of the electrodes is entirely

219 at each step, from initiation to elongation dynamics, produce qualitatively distinct signatures, whi

220 The pseudokinases also showed dynamic properties that were strikingly similar to those

221 n, facilitating the discovery of complex and dynamic protein networks.

222 molecular detail, accuracy, sensitivity, and dynamic range combined in a 21T MALDI FT-ICR MSI experim

223 unsolved challenge due to the extraordinary dynamic range of the blood proteome.

224 y or in combination have potential in a full dynamic range quantification strategy based on LAMP, in

225 n unbiased protein sequencing method, with a dynamic range that covers the full range of protein conc

226 rate Leu-FC empowered sensor displayed broad dynamic range with admirable detection limits.

227 and compared in terms of their sensitivity, dynamic range, selectivity, precision, and simplicity.

228 ows continuous stimulus sampling over a wide dynamic range.

229 the lack of small genetic switches with wide dynamic ranges that control transgene expression without

230 on the selectivity, sensitivity, precision, dynamic ranges, and temperature dependence of such senso

231 llular and circuit mechanisms, embedded in a dynamic, recurrent circuit architecture.

232 Thus, the dynamic regulation of SFs promotes BB connections and co

233 proteins exhibit more conventional structure-dynamics relationships.

234 Epithelial structure is generated by the dynamic reorganization of cells in response to mechanica

235 the derivation of individualized multilevel dynamic representations of rhythms of multiple homeostat

236 Capturing the dynamic response of 3D printed phantoms, ex vivo biologi

237 maintenance of blood homeostasis requires a dynamic response of HSCs to stress, and dysregulation of

238 ustomizability and the ability to tailor its dynamic response.

239 In this study, we used dynamic resting state functional MRI analyses to increas

240 o a deeper understanding of the evolutionary dynamics resulting from biotic interactions.

241 tical monitoring of CaCC activity and Ca(2+) dynamics revealed that the TRPV1 ligand capsaicin activa

242 Together, our findings indicate that dynamic RNA methylation plays an important regulatory ro

243 chanisms of trans-histone cross-talk and the dynamic role of H2B ubiquitination in stimulating histon

244 In the real world, complex dynamic scenes often arise from the composition of simpl

245 equence of a natural phase transition in the dynamic self-organization among N individuals within a s

246 sed complementary experimental and molecular dynamics simulation approaches to reveal a detailed mech

247 Here, using molecular dynamics simulation approaches, we found that both OTUB1

248 Molecular dynamics simulation results indicate high conformational

249 Our molecular dynamics simulations also suggest that membrane binding

250 tion of transient fusion stalks in molecular dynamics simulations and a coexisting sponge phase obser

251 Molecular dynamics simulations and studies in cells reveal that LD

252 ow that piecewise all-atom steered molecular dynamics simulations can provide novel atomic resolution

253 Many molecular dynamics simulations have investigated phase separation

254 Molecular dynamics simulations indicated that the onset of diffusi

255 Molecular dynamics simulations of post-powerstroke myosin suggest

256 we performed Gaussian accelerated molecular dynamics simulations on eight BAK1 mod-forms involving p

257 le-molecule force spectroscopy and molecular dynamics simulations to dissect the behavior of PRC2 on

258 wise approach for all-atom steered molecular dynamics simulations to examine specific secondary struc

259 Results are based on non-adiabatic dynamics simulations, in which the photoproduct ratios w

260 X-ray crystallography, and, using molecular dynamics simulations, the dynamics of VCBC have been cha

261 etical predictions were made using molecular dynamics simulations.

262 energy landscape determination and molecular dynamics simulations.

263 r box of standard all-atom steered molecular dynamics simulations.

264 , consistent with our results from molecular dynamics simulations.

265 Using steered molecular dynamics (SMD) simulations, we demonstrate that cbEGF do

266 using, ionization and plasma defocusing, and dynamic spatial replenishment are identified and resolve

267 tic resting-state functional integration and dynamic stability within the primary visual network.

268 Chemistry efforts on the scaffold revealed a dynamic structure activity relationship and delivered an

269 ngle-molecule FRET experiments and molecular dynamics studies to elucidate slipping dynamics and conf

270 on chains and explore large-scale population dynamics, such as the spread of antibiotic resistance.

271 ids (Theropoda: Dromaeosauridae), a group of dynamic, swift predators, have a sparse fossil record, p

272 rmula: see text] traditional epidemiological dynamics take place, e.g., as in susceptible-infected-re

273 FM-300 for xylene separation is confirmed by dynamic ternary breakthrough experiments.

274 , ligand-binding results in the reduction of dynamics that are localized to the binding site.

275 ion by BVM involves changes in structure and dynamics that are surprisingly subtle, but still suffici

276 physiology data, we show here that attractor dynamics that control neural spiking during mnemonic per

277 2 hemispheres, shedding light on the neural dynamics that potentially shape auditory and speech proc

278 n European UP "cultures" and past population dynamics, they leave open numerous questions regarding t

279 contacts in regulating mitochondrial calcium dynamics through the lysosomal calcium efflux channel, t

280 , which avoids assumptions on the underlying dynamics through the use of nonlinear kernel methods for

281 The turnover of the glycocalyx is dynamic to fine-tune these processes.

282 HDAC6 regulates cytoskeletal dynamics to promote tumor cell migration and invasion.

283 ity with surprisingly similar nanoclustering dynamics to that of Nb80.

284 The fabrication of dynamic, transformable biomaterials that respond to envi

285 tures in the open and closed states reveal a dynamic tunnel lining, with implications for gating or s

286 ta analysis and will enable the study of RBP dynamics under different physiological and pathological

287 influence root productivity and soil carbon dynamics under future climate change scenarios.

288 The network dynamics underlying these phenomena are not fully unders

289 by two current induced mechanisms: coastal "dynamic uplift" upwelling; and westward advection of nut

290 ([Formula: see text]) using gravimetric type dynamic vapor sorption (DVS).

291 ations, pharmacophore modeling and molecular dynamics was applied and computational results were anal

292 hNM dynamics was determined by solid-state NMR and revealed

293 rical coupling on dimensionality and chaotic dynamics, we first determined the physiological range of

294 orption spectroscopy and ab initio molecular dynamics, we have investigated the ambient water confine

295 Using computational fluid dynamics, we show that osteostracan headshield morpholog

296 his computational barrier, we have created a dynamic web-based platform, NASQAR (Nucleic Acid SeQuenc

297 suggest that (a) we can forecast biological dynamics while applying delta-correction and statistical

298 huxleyi host densities rather than virulent dynamics, with viruses switching from a long-term non-le

299 raphy (EEG) to characterize individual brain dynamics within discrete brain networks at high temporal

300 e-related population extinction-colonization dynamics within species that explains observed patterns