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1  lifetime and sharply dependent on crosslink dynamics.
2 c coupling, are suggested to be the limiting dynamics.
3 r size and the underlying immune recruitment dynamics.
4 ng microscopy (STM), and ab initio molecular dynamics.
5 ffects of different formulations on backbone dynamics.
6 tion, correlating with the excited nanoscale dynamics.
7 consequences for population and evolutionary dynamics.
8 ces shaping range edges and to predict their dynamics.
9 eloped dimer-scale computational model of MT dynamics.
10 ific influences on molecular plasma membrane dynamics.
11 oving our understanding of spatial community dynamics.
12 lizing and determining protein stability and dynamics.
13 o understanding temporal dimensions of niche dynamics.
14 and peripheral bud cells for regulating cell dynamics.
15 rates of CME and altered clathrin-coated pit dynamics.
16 ad predicted by the stability of their brain dynamics.
17  may be important determinants of pollinator dynamics.
18  excited state, indicative of nonequilibrium dynamics.
19 dividuals and thereby constrain evolutionary dynamics.
20 rgetic electrons determined by the injection dynamics.
21 of data analytics and modeling of biological dynamics.
22 gnificantly participate in the excited state dynamics.
23 i-momenta, and to produce spin-orbit-coupled dynamics.
24 visions in social networks influence disease dynamics.
25  these changes for both trait and population dynamics.
26 r in this game-hinges on the game's learning dynamics.
27 ity of gene expression and higher responsive dynamics.
28 al diffusion process and stochastic Langevin dynamics.
29 rategies that mine data to reveal underlying dynamics.
30 e our understanding of ancient DNA breakdown dynamics.
31 eration dynamics play out in long-term stand dynamics.
32 cin uptake and predict subsequent population dynamics.
33  fibres does not depend on calcium influx or dynamics.
34 , reward-dependent reorganization of control dynamics.
35  quiescent glasses and relate them to glassy dynamics.
36 paration of these states and investigate the dynamics across the phase transition in large arrays of
37 mbayment, which records millennial-scale AIS dynamics across this extensive region.
38 second bright pipi* state, which affects the dynamics, acting mainly as a "doorway" state for the nOp
39                               How structural dynamics affects cytokine signaling is under debate.
40  signaling dynamics, and, in turn, signaling dynamics affects inhibitor responses, we investigated as
41 odel shows promise for predicting population dynamics after multiple disturbance events and for manag
42                          Ab initio molecular dynamics (AIMD) simulations and molecular beam vacuum-UV
43                          Ab initio molecular dynamics (AIMD)-informed EXAFS analysis was employed to
44       Here, we study stochastic evolutionary dynamics along these equilibrium paths.
45 es exhibited greater variation in population dynamics among tissues and cell populations over the cou
46 xicity and demonstrate that inhibition of MT dynamics and accumulation of PTMs are driving factors fo
47 imulated at scale, have complex yet cyclical dynamics and as such provide a useful framework for deve
48 e of vacuole-related proteins in BR receptor dynamics and BR responses remains elusive.
49  dynamics engine, such as standard molecular dynamics and cell-modeling packages.
50 applied to interrogate intestinal epithelial dynamics and characterize situations in which processes
51 ondrial dysfunction, maintains mitochondrial dynamics and enhances mitochondrial biogenesis and synap
52   We developed a genetic toolkit to study MT dynamics and function in diverse cells.
53                   We use classical molecular dynamics and hybrid quantum mechanics/molecular mechanic
54 fect of temperature on the lipids' molecular dynamics and inducing an ordering effect that led to mor
55 ce led to impaired glucose-stimulated Ca(2+) dynamics and insulin secretion and recapitulated the pat
56  but a deeper understanding of mitochondrial dynamics and mitophagy during aging is missing.
57 w crystal structure, together with molecular dynamics and NMR studies, has revealed how the human PCN
58 pp, polyP has an additive effect on nucleoid dynamics and organization during starvation.
59 tially skewing our interpretations of forest dynamics and our understanding of how these forests are
60                               The stochastic dynamics and regulatory mechanisms that govern different
61 fically, we consider oscillators whose phase dynamics and spatial dynamics are coupled.
62                                   Population dynamics and species persistence are often mediated by s
63                 However, knowledge about the dynamics and the regulatory mechanisms underlying nuclea
64 akes decisions using knowledge of population dynamics and threshold insect densities.
65 nd respiratory motion phases, contrast-agent dynamics, and blood flow velocity fields.
66                       Defining the kinetics, dynamics, and cellular location of uncoating of virions
67  the enzymatic complexes that regulate m(6)A dynamics, and expression evolution of m(6)A-modified gen
68 tip structures exist, yet their composition, dynamics, and functions are largely unknown.
69 oviding valuable probes for local structure, dynamics, and ligand binding.
70 s kinase inhibitors interfere with signaling dynamics, and, in turn, signaling dynamics affects inhib
71 tress-induced behavioral disorders, and that dynamics are a critical axis of manipulation for causal
72                   Collectively, cytoskeletal dynamics are achieved as a balance between reactive oxyg
73 cates coherent phase space regions where the dynamics are approximately linear from those that are st
74     In numerous physical models on networks, dynamics are based on interactions that exclusively invo
75 omputational analysis showed that the output dynamics are controlled in a complex way by the concentr
76 oscillators whose phase dynamics and spatial dynamics are coupled.
77  of true population change for species whose dynamics are driven by stochastic processes.Adelie pengu
78  shows that both conformational rigidity and dynamics are essential for controlling protein activity.
79 uctures calculated using classical molecular dynamics are in excellent agreement with the orientation
80 dies and big-data approaches assessing sleep dynamics are lacking.
81  interacting signals, finding that signaling dynamics are largely robust to interference.
82                              In cells, actin dynamics are regulated by kinases, such as the LIM domai
83       In ephemeral pond ecosystems, temporal dynamics are relatively more important than in many syst
84                                  Avalanching dynamics are studied in many disciplines, with a recent
85 g of oscillations (limit cycles) though this dynamics are the typical response of many natural system
86                                Human fitness dynamics are uniquely and profoundly governed by the flo
87 eal highly variable and heterogeneous oxygen dynamics at a high, quasi-continuous resolution across b
88 rning the depth and amplitude of large-scale dynamics at extratropical latitudes.
89  determining species abundance and community dynamics at multiple spatial scales.
90                                 To study its dynamics at multiple time scales in response to inputs a
91 olution, thus providing access to picosecond dynamics at the atomic scale.
92 l complex, (b) TCR membrane localization and dynamics at the plasma membrane and in endosomal compart
93 FRET) to resolve single-molecule association dynamics at up to millimolar concentrations of fluoresce
94                        Understanding quantum dynamics away from equilibrium is an outstanding challen
95 nt approach: we propose a model for language dynamics based on the principles of cellular automata/ag
96            Results indicate that dissolution dynamics become increasingly important with increasing a
97           Herein, Born-Oppenheimer molecular dynamics (BOMD) simulations examine the dynamic behavior
98  seizures represent altered neuronal network dynamics, but the temporal evolution and cellular substr
99  may play an important role in mitochondrial dynamics by mediating mitochondrial fission.
100 luable to prepare and probe transition-state dynamics by the photodetachment of anions with an equili
101 inylidene anions H2CC- and D2CC- and quantum dynamics calculations.
102 The simulations reveal that the evolutionary dynamics can be collapsed onto master curves governed by
103 w that agonist-induced intracellular calcium dynamics can be modified by changing the levels of SERCA
104 , and suggest that the transition in mitotic dynamics can be studied in organoid models.
105 how that violation of ergodicity in the fast dynamics can drive the whole system to equilibrium.
106 chromatin tethers, together with microtubule dynamics, can mobilize the genome in response to DNA dam
107 e role of glutamate, ion concentrations, and dynamics cell volume in other brain pathologies and norm
108  hemodynamic effects via computational fluid dynamics (CFD).
109  present OpenRBC, a coarse-grained molecular dynamics code, which is capable of performing an unprece
110 set of SLC25A46 interacts with mitochondrial dynamics components and the MICOS complex.
111             Specific parameters of signaling dynamics correlated strongly with drug sensitivity for 1
112 re regimes or their postfire forest recovery dynamics could bring about extensive forest loss, with a
113  more detailed data are lacking on dispersal dynamics, demographic processes underpinning population
114 studies has begun to elucidate how signaling dynamics determine cell physiology and represents a para
115 nt an NMR-guided all-atom discrete molecular dynamics (DMD) platform, iFoldNMR, for rapid and accurat
116                However, their spatiotemporal dynamics during behavior are poorly understood.
117   The model reproduces intracellular calcium dynamics during control pacing and reveals the high-reso
118 scription factor that may regulate chromatin dynamics during development.
119    Therefore, to aid in investigations of pH dynamics during endocytosis at the nanoscale, we have sp
120  distinct role in the regulation of endosome dynamics during fungal development and plant infection.
121 inst histology, characterize microstructural dynamics during left ventricular wall thickening, and ap
122                     Regulation of macrophage dynamics during these processes can therefore have a pro
123  followers, we discover that leader-follower dynamics emerge from the site-specific social susceptibi
124       WE software can be used to control any dynamics engine, such as standard molecular dynamics and
125 in that functions in regulating cytoskeleton dynamics, especially in neurons.
126 f realistic seasonality in vector population dynamics facilitates gene drive success compared with no
127 governing interareal functional connectivity dynamics (FCD) remain elusive.
128  a high-density electrode array and dopamine dynamics from a carbon-fiber microelectrode.
129 oral soliton bound states and their internal dynamics have escaped direct experimental observation.
130                               Charge carrier dynamics in amorphous semiconductors has been a topic of
131 on results in extensive perturbations of the dynamics in both apo- and holo-forms of the HCN4 isoform
132 ressure and density dependence of collective dynamics in bulk water and in concentrated protein solut
133 hlights the important role of SWAP-70 in Cer dynamics in dendritic cells.
134 y optimized for a diverse range of predicted dynamics in development.
135 ation, confirming the causative role of Fus3 dynamics in driving cell fate decisions.
136 olutionised the study of bacterial infection dynamics in laboratory animal models.
137    This study provides a novel tool to study dynamics in ordered and disordered solids and provides n
138                     We analyzed water source dynamics in pinon pine and juniper trees subjected to pr
139 ate CO2 reorientation and spectral diffusion dynamics in SILMs.
140 des a framework for understanding resistance dynamics in single cells.
141 ale reproductive tract and peripheral tissue dynamics in single, dual and multiple unit microfluidic
142  Our findings may spur a paradigm of soliton dynamics in soft matter, with a rich interplay between t
143        Current understanding of mercury (Hg) dynamics in the Arctic is hampered by a lack of data in
144 ling the importance of isolation-by-distance dynamics in the area.
145  This raises the possibility of targeting MT dynamics in the design of new therapeutic agents.
146 ed that netrin-1 differentially increased MT dynamics in the GC with more MT growth in the distal tha
147 account for the discrepancies between growth dynamics in the notch-drives-growth model and real plant
148 however, the role of chromatin structure and dynamics in this process remains poorly understood.
149 enables highly detailed insights into oxygen dynamics in various aquatic and terrestrial environments
150  broadly used to investigate single molecule dynamics in vitro.
151 portant in predicting extrusion hotspots and dynamics in vivo, with potential applications to tissue
152   Numerous phosphoproteins involved in actin dynamics including Wiskott-Aldrich syndrome protein (WAS
153 nce that targeting endogenous spatiotemporal dynamics is a potential therapeutic approach for treatin
154       Thus, the study of protein acetylation dynamics is critical for understanding of how this modif
155 , assembly processes and microbial community dynamics is necessary to predict microbial response to p
156 ate podocyte cytoskeleton and slit diaphragm dynamics, MAGI2 mutations have not been described in hum
157                       Investigating telomere dynamics may help us quantify individual variation in th
158  hyperuniform states, driven, nonequilibrium dynamics may.
159                                    Molecular dynamics (MD) simulations are used to model changes in t
160                                    Molecular dynamics (MD) simulations suggest that LSD's slow bindin
161  exchange MS (HDX-MS) methods, and molecular dynamics (MD).
162 (FEP) coupled with lambda-exchange molecular dynamics method to calculate the binding free energy of
163  a broad class of resource-limited community dynamics models, regardless of parameterization and mode
164  the imaging of the motion and morphological dynamics of a single, same particle on nanometer and ult
165 ith a circuit-based approach to simulate the dynamics of a spin chain and maximise the entanglement g
166 of the barrier depends on spatial control of dynamics of actin cytoskeleton in the foot processes.
167    Here, we probe the solution structure and dynamics of active and inactive TNFalpha using NMR spect
168 lfactory bulb slices to measure the synaptic dynamics of afferent-evoked input at physiological stimu
169                                    Here, the dynamics of AQP4e aggregation into OAPs and its role in
170  resolution, and by exploring the structural dynamics of Aqy1 during freezing through molecular dynam
171 as a starting point to explore the nonlinear dynamics of atrial cells and will yield insights into th
172 the thick filament also seems to control the dynamics of both muscle activation and relaxation.
173  of our approach to monitor the position and dynamics of both repetitive and non-repetitive genomic r
174                                 To date, the dynamics of breather solitons in microresonators remains
175                                          The dynamics of chemical reactions are often governed by tra
176 nd Cl(-) ion concentrations and the temporal dynamics of conductivity at a range of stream sites in w
177  simultaneous determination of structure and dynamics of conformationally heterogeneous systems by in
178 seful theoretical technique for modeling the dynamics of correlated systems.
179          Recently, insights into the network dynamics of cortical activity during sleep were obtained
180 ce of considering the packing when analyzing dynamics of crystalline proteins.X-ray crystallography i
181 orescence intermittency, and photoconversion dynamics of Dendra2, a well-known PAFP used in localizat
182  Our study provides a framework to infer the dynamics of differentiation from single cell transcripto
183 tates are often invoked in the excited-state dynamics of donor-acceptor dyads, but their involvement
184 rovides detailed insight into the structural dynamics of each subunit in a polymerization-competent a
185                  Understanding the ultrafast dynamics of electronically excited BODIPY chromophores c
186 s for ethyl as residue and attributed to the dynamics of elimination reactions.
187               We investigated the population dynamics of exogenous Lactobacillus plantarum and its in
188                        Additionally, L1 loop dynamics of fl-p53 in the presence of DNA is revealed, a
189 that as the conformational and translational dynamics of FN increased, the rate of binding, particula
190 define three key epochs in the transcriptome dynamics of human retina from fetal day (D) 52 to 136.
191 lucidation of the mechanism of intracellular dynamics of IAV assembly is necessary to understand reas
192 ng the structure, intermolecular forces, and dynamics of ionic liquids.
193 atomic structure of T4 is largely known, the dynamics of its fascinating injection machinery is not u
194 ect ultradian sleep cycles and replicate the dynamics of laboratory sleep parameters.
195 tical element for unravelling the structural dynamics of matter.
196 actors, and enhance our understanding of the dynamics of natural populations.
197                               We compare the dynamics of novel isoforms based on the number of suppor
198 axotomy with time-lapse imaging to study the dynamics of phosphatidylserine externalization immediate
199 , and the use of these sensors to follow the dynamics of phosphoinositide conversion during endocytos
200 t a mathematical analysis of the within-host dynamics of plasma ZIKV burden in a nonhuman primate mod
201 ts a fundamental step to understand the spin dynamics of potential molecular quantum bits, and enrich
202 tide panel is a powerful method to study the dynamics of protein networks, but chromatographic time s
203 ty to unidirectional conduction patterns and dynamics of re-entrant excitation waves.
204 d that the behavior of brookite, both in the dynamics of relaxation of photo-generated charges and in
205 e, very little is known about the structural dynamics of ribbons.
206 live imaging, we examined the spatiotemporal dynamics of RNA and LPS in retinal axons during arboriza
207 field modeling to elucidate the delithiation dynamics of single-crystal lithium iron phosphate micror
208 theoretically investigate the full many-body dynamics of the acquisition of angular momentum by a gas
209 merical approach to compute the whole-embryo dynamics of the actomyosin-rich apical epithelial surfac
210 min for live cell fluorescent imaging of the dynamics of the bacterial outer membrane as cells divide
211 ined from chemical shifts, and site-specific dynamics of the bound state are characterized by relaxat
212 ma membrane and filopodia, and the 2D and 3D dynamics of the endoplasmic reticulum, in living cells.
213 s were used to characterize the identity and dynamics of the excited states, where singlet and triple
214                            The structure and dynamics of the extracellular loops of OprH show distinc
215                         The architecture and dynamics of the FG-network have been refractory to chara
216         We examined the long-term population dynamics of the invasive common wasp, Vespula vulgaris,
217 eriments, we investigated the conformational dynamics of the kinase-substrate interface.
218                           Our data reveal 2D dynamics of the mitochondria, plasma membrane and filopo
219 s been a sustained effort to reconstruct the dynamics of the phosphorus cycle over the past 3.5 billi
220 e catalysis is facilitated by conformational dynamics of the protein scaffold that surrounds the acti
221 model and its complexity is reflected in the dynamics of the relaxation of the system to its ground s
222 lations were used to probe the structure and dynamics of the system at a range of hydration levels.
223               We examined the spatiotemporal dynamics of these complementary processes in a picture n
224 ittle is understood about the morphology and dynamics of these polymer layers.
225 Kondo regime, we uncover directly the charge dynamics of this peculiar mechanism of electron transfer
226                               The degree and dynamics of translational control during mammalian devel
227 rovide insight into the clinical and genomic dynamics of tumor evolution with cisplatin-based chemoth
228 light detailed insights in the structure and dynamics of urban segregation that would be otherwise ea
229 , IP3R, and RyR on the intracellular calcium dynamics of VSMC and to understand how variation in prot
230 can amplify stochastic fluctuations in actin dynamics, often resulting in traveling waves of protrusi
231          Their ablation effectively modifies dynamics on restricted ablation.
232       However, reactivation of mitochondrial dynamics only occurs after transfer to germination condi
233 nterference should occur between alternating dynamics only when the kinematic errors associated with
234 s on data describing early time, low-density dynamics only.
235        Neither ZapA nor ZauP influenced FtsZ dynamics or bundling, in vitro, however.
236 t had exceptional global stability, backbone dynamics, or amide hydrogen exchange rates.
237 ogeneity and how its effects on regeneration dynamics play out in long-term stand dynamics.
238 y, upregulation of Chd1 restores nucleosomal dynamics, promotes normal induction of protective stress
239 uncovered cell state plasticity and adhesion dynamics regulated by Ror2, which influenced Ras Homolog
240  selectivity (feature vs. eye of origin) and dynamics (relatively slow vs. relatively fast).
241  in situ three-dimensional imaging of defect dynamics remains challenging.
242 nship between climate change and hybrid zone dynamics remains tenuous [5].
243     Therefore, the modulation of interdomain dynamics represents an important mechanism during antibo
244 isrupting compounds (EDCs) affect population dynamics requires tracking males and females (and sex-re
245 trictly positive only when the fast particle dynamics reveal two or more ergodic components for a ran
246 ulting in the rescue of aberrant striatal DA dynamics, reversal of characteristic phenotypic and beha
247            We use a combination of molecular dynamics simulation and atomic force microscopy to deliv
248  Moreover our NMR, mutagenesis and molecular dynamics simulation studies defined the sequence of the
249 us resistance, HA interaction, and molecular dynamics simulation studies elucidated the binding site
250                                    Molecular dynamics simulations and density-functional methods were
251 ld crystal approach with classical molecular dynamics simulations and quantum-mechanical density func
252                 We evaluated using molecular dynamics simulations and the free energy perturbation me
253                                    Molecular dynamics simulations calculate the motion of each atom i
254                         Multiscale molecular dynamics simulations confirm proton transport occurs thr
255 stic fingerprint is also confirmed by direct dynamics simulations for ethyl as residue and attributed
256                 Here, we performed molecular dynamics simulations of GLIC in the absence and presence
257 s the rapid set up of reproducible molecular dynamics simulations of ligands and protein-ligand compl
258      We report atomically detailed molecular dynamics simulations of the permeation of the lethal fac
259  perform classical and accelerated molecular dynamics simulations of vacancy-mediated cation diffusio
260                       Kinetics and molecular dynamics simulations on several GalNAc-T2 flexible linke
261                                    Molecular dynamics simulations revealed that these ligands adopt d
262                                     Brownian Dynamics simulations suggest that binding asymmetry is a
263 ork, we report multiscale reactive molecular dynamics simulations that characterize the free-energy p
264                             We use molecular dynamics simulations to resolve the molecular level reco
265                                    Molecular dynamics simulations were used to probe the structure an
266                                    Molecular dynamics simulations with reagent excitation by way of s
267    By combining x-ray diffraction, molecular dynamics simulations, and electrochemistry, we present e
268 companied by large-scale atomistic molecular dynamics simulations, are used for the first time to rec
269 easurements and from force pulling molecular dynamics simulations, both in water.
270 c modulus of lignin, calculated by molecular dynamics simulations, increases initially with increasin
271 ss by crystallography and unguided molecular dynamics simulations, providing an atomic-level descript
272 combined with large-scale reactive molecular dynamics simulations, reveal the details of the transfor
273                     Using all-atom molecular dynamics simulations, we characterized the molecular mec
274                            Using 2D Brownian dynamics simulations, we study a dense, confined mixture
275 opy, native mass spectrometry, and molecular dynamics simulations.
276 way, as previously postulated from molecular dynamics simulations.
277 e our findings with predictions of molecular-dynamics simulations.
278 cs of Aqy1 during freezing through molecular dynamics simulations.
279 rce microscopy (smAFM) and steered molecular dynamics (SMD) simulations.
280 , TNFalpha exhibits increased conformational dynamics spanning from the trimerization interface to th
281 eral model in the network science on opinion dynamics substantially clarifies how truth wins in group
282                                  The wrinkle dynamics (such as reversibility and stability) of human
283 e DYT4 mutation had no impact on microtubule dynamics suggesting a distinct mechanism of action.
284  using FRAP data that captures intracellular dynamics through partial differential equation models.
285              By controlling FN structure and dynamics through tuning surface chemistry, we found that
286 aptive therapy, using patient-specific tumor dynamics to inform on/off treatment cycles, suppresses p
287 ss has challenged efforts to link population dynamics to key drivers.
288 specific protein-induced changes in the rRNA dynamics underlie the hierarchy of 30S assembly and simp
289 of spiking neurons can learn non-linear body dynamics using local, online and stable learning rules i
290 e how the crystal packing alters microsecond dynamics, using solid-state NMR measurements and multi-m
291 erefore, the effect of sulindac on stem cell dynamics was studied.
292 HLCA and PEI models, the first-step decision dynamics were initially biased toward the choice represe
293                       Other individual-level dynamics were less influential in determining observed o
294  show that cross-links dominate entanglement dynamics when the length between cross-linkers becomes s
295    Forest mycorrhizal type mediates nutrient dynamics, which in turn can influence forest community s
296 ext] Although finite temperature equilibrium dynamics will not yield hyperuniform states, driven, non
297 egrating in vivo analysis of gene expression dynamics with a reverse engineering approach to infer da
298 re, we found that chemically perturbing Fus3 dynamics with a specific inhibitor could effectively red
299 es as a model system for stochastic bistable dynamics, with applications to a wide variety of fields.
300                             However, protein dynamics within the 3D nucleus are poorly understood.

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