1 reveal several behavioral signatures of this
theoretical account, tying choice stochasticity to the m
2 hat have so far escaped a common, principled
theoretical account.
3 In line with
theoretical accounts, people's decisions to move from cu
4 ts from these simulations highlight the high
theoretical accuracy of our estimators and yield insight
5 In this Review, we will describe recent
theoretical advances including treatment of electronic d
6 Here, we review experimental and
theoretical advances to argue that networks of trophic i
7 Here, the experimental and
theoretical analyses are focused on single tetracenothio
8 Theoretical analyses of pillar elasticity confirm that d
9 The
theoretical analyses of the coupled map lattice model re
10 Theoretical analyses show that, although CAs could stimu
11 Experimental and
theoretical analyses showed that MSA-2 exists as interco
12 Our
theoretical analysis agrees well with the scattering rat
13 This
theoretical analysis establishes a direct relationship b
14 Using experimental and
theoretical analysis of AWC(ON), a well-described olfact
15 cles and antibodies from dyes, and present a
theoretical analysis of the system, providing engineerin
16 The synthesis characterization and
theoretical analysis of these compounds are presented.
17 A
theoretical analysis reveals multiple evolutionary stabl
18 Here, we carried a principled
theoretical analysis to answer this question.
19 A
theoretical analysis(19) indicates that the effect arise
20 However, recent
theoretical and comparative studies have challenged this
21 We present
theoretical and computational analyses of both approache
22 hanical characterization in conjunction with
theoretical and computational modeling, we uncover the u
23 f epidemiological parameters by matching the
theoretical and empirical gradients of access period res
24 dies of cognitive aging, and I describe some
theoretical and empirical points deriving from this aspe
25 Here, we plug this gap between current
theoretical and empirical understanding by developing a
26 ors remains controversial despite decades of
theoretical and experimental efforts.
27 inear correlations were obtained between the
theoretical and experimental energy of the lower absorpt
28 tion, which is demonstrated through multiple
theoretical and experimental evidence.
29 sults can provide new insights into previous
theoretical and experimental findings by using a fully f
30 Comparisons between
theoretical and experimental peak frequencies will there
31 an extensive field of research from both the
theoretical and experimental perspectives.
32 The main part of this review focuses on
theoretical and experimental progress that has been achi
33 gnal transduction profile, thus facilitating
theoretical and experimental studies on signal transduct
34 Combined efforts from many
theoretical and experimental studies on the lipid-protei
35 Our results provide a foundation for further
theoretical and experimental work.
36 tion will require a large improvement in the
theoretical and mathematical foundations of movement eco
37 serious confound in prior work, raising new
theoretical and methodological challenges for the field.
38 nities and formidable challenges to existing
theoretical and modeling approaches.
39 These findings shed new insights into the
theoretical and neural underpinnings of value-driven sal
40 tering the GPS displacement time series, the
theoretical and observed GPS values are compared to iden
41 revalence of offspring mortality (mOM) bring
theoretical and practical value to a variety of discipli
42 nterventions were tested, drawing on diverse
theoretical and procedural underpinnings.
43 typically adopt approaches that are entirely
theoretical and simulative, thus lacking practical insig
44 st that including astrocytes in mechanistic,
theoretical,
and computational studies of neural circuit
45 Altogether, our
theoretical approach identifies key biophysical events i
46 Here, we present a new game
theoretical approach to model complex coevolutionary pro
47 olivary nucleus and a novel experimental and
theoretical approach to study electrically coupled netwo
48 ntial statistics, we present a comprehensive
theoretical approach, addressing uniform and polydisperi
49 o integrate computational, experimental, and
theoretical approaches for the study of chromatin biolog
50 Existing
theoretical approaches have described the overarching co
51 Using experimental and
theoretical approaches including magnetometry, thermodyn
52 The experimental and
theoretical approaches of the optical response visible r
53 The review divides work up into three
theoretical approaches that have deep mathematical conne
54 a combination of chemical, NMR, kinetic and
theoretical approaches, culminating in the unprecedented
55 fic manner using rotational spectroscopy and
theoretical approaches.
56 We provide
theoretical arguments in favor of IBS and an empirical a
57 lity is summarized, with a focus on both the
theoretical background and the experimental advances in
58 However, despite such a rich
theoretical background, one of the important unsolved pr
59 Here, we show a
theoretical basis and experimental support for the asser
60 anding of crop domestication would provide a
theoretical basis for how we could improve current crops
61 The Jarzynski equality forms a
theoretical basis in recovering the free energy differen
62 Now, using time-resolved spectroscopy and
theoretical calculation, it is demonstrated that, instea
63 Theoretical calculations (ab initio and DFT) were used t
64 centrations (CCCs), which were compared with
theoretical calculations (Schulze-Hardy rule).
65 urements of cobalamin-dependent enzymes, and
theoretical calculations all indicate that Prochlorococc
66 Theoretical calculations and experimental results verify
67 Experimental data and
theoretical calculations are in good accordance with the
68 We rely on the
theoretical calculations based on the heat diffusion equ
69 Experimental data corroborated by
theoretical calculations demonstrate that intramolecular
70 The
theoretical calculations demonstrate that this C-C bond
71 Theoretical calculations elucidate that the reaction fre
72 Theoretical calculations of phosphorene have explained t
73 Moreover, our
theoretical calculations show that a minimum energy cons
74 Material and device analysis combined with
theoretical calculations suggest that the C(8) -BTBT-ric
75 Kinetic measurements,
theoretical calculations, and transformation product ana
76 tomic exchange interactions, consistent with
theoretical calculations.
77 ramolecular isotope labeling experiments and
theoretical calculations.
78 graphy, electronic and NMR spectroscopy, and
theoretical calculations.
79 microscopy and spectroscopy, complemented by
theoretical calculations.
80 Among the plausible
theoretical candidate structures, one-dimensional carbon
81 biological ion channels remains a formidable
theoretical challenge.
82 nodes remains a significant experimental and
theoretical challenge.
83 initial coding to focused coding, through to
theoretical coding, resulting in the production of core
84 Moreover, the experimental and
theoretical comparison between racemic and enantiopure s
85 Via
theoretical computation and time-resolved EPR spectrosco
86 imited to ~800 ps by our measurement system,
theoretical considerations suggest considerably faster m
87 ges with RLC circuits, transcending existing
theoretical constructions which necessarily break recipr
88 Twelve of 13
theoretical contrasts replicated, with 100% replication
89 rimental (X-ray absorption spectroscopy) and
theoretical (
Density Functional Theory) studies reveal t
90 ental developments continue to challenge the
theoretical description of molecular interactions.
91 Attempts on the
theoretical description of this charge transfer (CT)-IT
92 The paper describes
theoretical details of the proposed approach and its imp
93 s the true compartmental structure up to the
theoretical detectability threshold, while all commonly
94 and crowders is incorporated based on recent
theoretical developments.
95 cepts from applied disciplines and from more
theoretical disciplines.
96 kDa) PEO and the P(R(ee))'s crossover to the
theoretical distribution for an excluded volume chain.
97 This corresponds to a
theoretical drag reduction of about 27%.
98 ion of membrane coverage by ENTH, validating
theoretical equations of state.
99 cal errors, in quantitative agreement with a
theoretical estimate based on the measured imperfections
100 Theoretical ethanol yield range from 279.5 to 3,101.2 L
101 ental approaches and further developments of
theoretical exchange models.
102 Our findings are consistent with the
theoretical expectation that ecological risks and enviro
103 ntally observed phenomenology and provides a
theoretical explanation for the coexistence and interact
104 ted as a physical principle, this provides a
theoretical explanation for why noninteger dimensions ar
105 Our results constrain
theoretical explanations for the emergence of supercondu
106 First-principles
theoretical explorations of the electronic structure unc
107 This typically involves a series of complex
theoretical expressions to compare, intersect, extract s
108 ty which interprets and applies flexible set
theoretical expressions to sets of sequence variant data
109 Our
theoretical focus on ecological change as a primary fact
110 The investigation of our model system and
theoretical formulation bring to light the dimensionalit
111 We thereby provide a
theoretical foundation for belowground allocation of car
112 This paper investigates the
theoretical foundation of this claim.
113 Our results provide a
theoretical foundation to understand the effect of corre
114 The developed
theoretical framework can be fully generalized to other
115 to medical image translation, by employing a
theoretical framework capable of establishing a shared f
116 le model of sexual reproduction and create a
theoretical framework for the evolution of indiscriminat
117 these mechanisms, an experimental system and
theoretical framework for the study of interplay of thes
118 Overall, our work offers a
theoretical framework for understanding the evolution an
119 We also develop a
theoretical framework in which we can analyze and bound
120 The
theoretical framework is applied to interpretation of li
121 Here, a
theoretical framework of noise-scaled stability analysis
122 The
theoretical framework presented here is a useful tool to
123 Here, we develop a simple
theoretical framework that allows measuring the relative
124 To this end, we present a
theoretical framework that does not assume any specific
125 Here we develop a
theoretical framework that explicitly accounts for stoch
126 Here we propose a
theoretical framework to combine quantum and molecular m
127 Here we formulate a
theoretical framework to elucidate the phase behavior of
128 We use our
theoretical framework to estimate the limits of mechanos
129 We further present a
theoretical framework to justify our model architecture.
130 tering the pilot instrument to patients, the
theoretical framework undergoes testing and revision to
131 Despite this influential
theoretical framework, little is known about the neural
132 I propose an important addition to this
theoretical framework, namely that mental travel might a
133 In the same
theoretical framework, we further demonstrate that the e
134 leaf and ecosystem observations in a common
theoretical framework.
135 and a clinical trial of FMT to validate our
theoretical framework.
136 Theoretical frameworks of human vision argue that object
137 Appropriate matching of
theoretical frameworks to research questions can increas
138 cause of inter-arene torsions that emerge in
theoretical geometry optimizations, makes these compound
139 and theory of neural networks, has no solid
theoretical grounds so far.
140 nd protein levels, while benefiting from the
theoretical guarantees of the Benjamini-Hochberg framewo
141 We present simple
theoretical guidelines to explain both the hierarchical
142 rojected decreases in complication rates and
theoretical hospital volume.
143 An in silico
theoretical hydrolysis of amandin subunits corroborated
144 Finally, I discuss the key
theoretical ideas that have emerged from these modeling
145 tightness of knowledge networks using graph
theoretical indices and use a generative model of networ
146 For
theoretical insight into the origins of this behaviour,
147 not only of practical relevance but also of
theoretical interest because it provides thermodynamic i
148 synthesis was followed in developing a novel
theoretical interpretation of relatives' experiences.
149 omprehensive structural, optoelectronic, and
theoretical investigation is presented.
150 could benefit from renewed experimental and
theoretical investigation of more powerful directed type
151 Here, the first experimental and
theoretical investigation of regioregular poly(3-alkylth
152 ese questions, we report an experimental and
theoretical investigation of the catalytic dehydration o
153 a collection of synthetic, spectroscopic and
theoretical investigations that provide insights into th
154 nalytes can be identified by comparing their
theoretical isotopic signal with the observed peaks.
155 A
theoretical limitation could be the reinnervation, that
156 These correlation values approach the
theoretical limits for accuracy imposed by natural varia
157 lting in large efficiency losses relative to
theoretical limits.
158 o have ultrahigh strengths approaching their
theoretical limits.
159 Next, we propose a
theoretical link between two key decision-theoretic quan
160 We review selected experimental and
theoretical (
mathematical) models pertaining to the hypo
161 The optimal feed composition yielding a
theoretical maximal amount of lactulose was determined a
162 mal surface structures, but also exceeds the
theoretical maximum (Hashin-Shtrikman upper bound).
163 enting these experimental tools, co-polymers
theoretical methods are necessary to determine the ensem
164 We finally review the advancements in
theoretical methods for accelerating catalyst design and
165 ondition, not found in nature, tests current
theoretical methods in a new regime.
166 zation of nitroso oxides was explained using
theoretical methods.
167 l setting where consumption was lowered to a
theoretical minimum distribution with a mean of 0.5% ene
168 he analyses have been here corroborated by a
theoretical model based on the diffusion equation.
169 In the context of a
theoretical model for regulation of Chlamydomonas multip
170 his relocation is still elusive, we devise a
theoretical model for the molecular-motor-driven motion
171 were compared with simulated images for four
theoretical model geometries, including possible bond-an
172 Our
theoretical model matches the experimental data from the
173 st John Hubbard in the 1960s(1), is a simple
theoretical model of interacting quantum particles in a
174 The results obtained corroborate a recent
theoretical model of SEY reduction as a function of the
175 We develop a predictive
theoretical model of the physical mechanisms that govern
176 The
theoretical model predicts 39% of the variance in chi va
177 al crystal structure matches well with a new
theoretical model structure, with carbon atoms inserted
178 We present a
theoretical model to elucidate how a negative feedback m
179 We develop a
theoretical model to explain our experimental observatio
180 We apply this
theoretical model to test the possible interactions betw
181 Rather than generate data from a
theoretical model, in this paper we develop methods to a
182 NA bases during translocation; and (iii) one
theoretical model, the 'B-A scrunchworm', predicts that
183 Finally, using a
theoretical model, we argue that the actin-spectrin skel
184 In the corresponding
theoretical model, we treated the proteins as limited-va
185 ial magnetic field are in agreement with our
theoretical model.
186 Using a combination of
theoretical modeling and quantitative live-cell imaging
187 Following the discussion of
theoretical modeling of the piezoelectric materials to c
188 Theoretical modeling of thermal deformations provides a
189 Theoretical modeling revealed that these regulatory stra
190 oscopy and light-scattering experiments with
theoretical modeling to show the reversible decrease in
191 We perform
theoretical modeling to understand thin film delaminatio
192 c-scale electron microscopy observations and
theoretical modeling, we delineate the atomic-scale mech
193 although this is now reinforced by extensive
theoretical modeling.
194 g release at zero-order rates, empirical and
theoretical modelling have been extensively employed and
195 d largely from animal models, and associated
theoretical modelling, it is demonstrated that inter-hem
196 etween these two alterations is suggested by
theoretical models based on striatal dopamine's topograp
197 Theoretical models for the aging dynamics need to be rev
198 produce, guiding the development of accurate
theoretical models for the interaction of H(2) with a so
199 Although animal and
theoretical models of addiction emphasize the importance
200 ovel approach that combines data mining with
theoretical models of disease dynamics.
201 Here, a summary of
theoretical models of nanoparticle dynamics is presented
202 Theoretical models predict that if the disk is misaligne
203 In C(4) plants,
theoretical models suggest that leaf carbon isotope comp
204 Theoretical models to study the interplay between noisy
205 odels built from long-term demographic data,
theoretical models, and methods that leverage widely ava
206 , as real data often exhibit violations from
theoretical models, this can result in unsubstantiated c
207 revisit of various experimental findings and
theoretical models--including those of our own--in the f
208 question of how recorded activity relates to
theoretical models.
209 Using animal models and
theoretical multicellular linear strands, we examined ho
210 Here, we present a high-level
theoretical multiconformer transition-state theory study
211 hts from neuroanatomy, machine learning, and
theoretical neuroscience to suggest random sparse connec
212 e critically revisit and update the original
theoretical notion of brain modes, and provide real-life
213 Classic
theoretical papers highlighted the importance of two pot
214 lar motors and try to ascertain if there are
theoretical performance limits.
215 ying idea of GOxploreR is to exploit a graph-
theoretical perspective of GO as manifested by its DAG-s
216 From a
theoretical perspective, these results demonstrate that
217 From a
theoretical perspective, these results suggest that soil
218 For cationic beta-blockers the
theoretical plates achieved in the capillary electrophor
219 ing technique and demonstrated the number of
theoretical plates between 5000 and 8300 per meter.
220 lts are supported by numerical simulation of
theoretical pore density which are in good agreement wit
221 pe and snail twist mutant embryos, where our
theoretical prediction is further improved when we also
222 a), has recently attracted attention after a
theoretical prediction of high thermoelectric figure of
223 To support the
theoretical prediction, the designed 6 ML and 8 ML SLs a
224 ded its detailed investigation, despite many
theoretical predictions about the abundance of exotic in
225 Recently,
theoretical predictions as well as indirect experimental
226 m with T(C,FM) ~ 90 K, matching exactly with
theoretical predictions for the induced strain levels.
227 Many
theoretical predictions have been made, from scaling law
228 Experimental studies following the
theoretical predictions have confirmed the catalytic eff
229 fying matches between empirical evidence and
theoretical predictions of transmission dynamics.
230 The experimental results disagree with some
theoretical predictions of when they are extended to a p
231 Theoretical predictions show that upconversion-based roo
232 ormed on single crystals and thin films, and
theoretical predictions were made using molecular dynami
233 th experimental results and supported by the
theoretical predictions, provides a way to study the eff
234 Fourier domain, in excellent agreement with
theoretical predictions.
235 ace, or close to zero, in agreement with the
theoretical predictions.
236 n an issue for accurate prediction by common
theoretical probes.
237 There are serious
theoretical problems with the free-energy principle mode
238 ies, allowing us to describe the information-
theoretical properties of complex systems.
239 Despite the method's popularity, many
theoretical questions regarding its performance remain o
240 ns within a given MRI study had a calculated
theoretical radius > 2.49 based on deviation from a perf
241 We describe the
theoretical rationales, current states of the science, f
242 The
theoretical relationships are elucidated, and empirical
243 The
theoretical results are confronted with QCM and atomic f
244 The
theoretical results are further verified by systematic e
245 We validate the
theoretical results by fitting the derived [Formula: see
246 This combination of experimental and
theoretical results confirm the proposed mechanism of me
247 Comparing the phase diagram with
theoretical results, the strain-tunable magnetism is att
248 fe, and the potential benefit outweighed the
theoretical risk of liver or renal toxicity; however, ad
249 Purposive and
theoretical sampling were used to recruit general, menta
250 The
theoretical scaling relations developed here suggest, fo
251 The average
theoretical sensitivity of the Southern Ocean to potenti
252 ng a series of biophysical, biochemical, and
theoretical simulation studies, we observe that these on
253 zation of crystallography, spectroscopy, and
theoretical simulations to reveal the effect a confined
254 Using mass spectrometry,
theoretical simulations, dynamic nuclear polarization-en
255 idenced by both electrochemical analysis and
theoretical simulations.
256 ility in other contexts and for benchmarking
theoretical solvation models.
257 discharge shows a capacity of 96.5 % of the
theoretical specific capacity and the cell retains 69.2
258 cted extensive attention owing to their high
theoretical specific capacity.
259 thods, Non-Adiabatic Molecular Dynamics, and
Theoretical Spectroscopy represent the three pillars of
260 hifts) with those predicted for all possible
theoretical stereoisomers.
261 ation based screening approach satisfies the
theoretical strong screening consistency property under
262 ty of interspecific encounter) vary over the
theoretical structure descriptor plane, demonstrating th
263 The results provide much needed feedback for
theoretical studies and also indicate a huge kinetic adv
264 Theoretical studies based on quantum chemical calculatio
265 Both experimental and
theoretical studies have attempted to develop a mechanis
266 sting body of literature on experimental and
theoretical studies of ICD processes in different atomic
267 We demonstrate that future observational and
theoretical studies of terrestrial exoplanets must consi
268 sis have been evidenced by experiments, most
theoretical studies on hydrated molecular HNO(3) have fo
269 Theoretical studies suggest that dispersal behaviour cou
270 Spectroscopic and
theoretical studies suggested that this unusually high d
271 ced in situ analytical techniques as well as
theoretical studies to better understand the carbon pore
272 evidenced by comprehensive spectroscopic and
theoretical studies, the heterocyclopentadiene isomer ma
273 ramagnetic resonance (EPR) spectroscopy, and
theoretical studies.
274 actors that have been largely disregarded in
theoretical studies: fitness-dependent dispersal and str
275 The findings of this
theoretical study are consistent with examples of shell
276 Our joint experimental and
theoretical study of the prototypical simple metal alumi
277 able conditions, which provides an appealing
theoretical support for its outperformance.
278 Consistent with this
theoretical synthesis, the empirical frequency of these
279 Using a combination of field
theoretical techniques and density matrix renormalizatio
280 nvestigated by a battery of experimental and
theoretical techniques, including In K-edge and Ga K-edg
281 reased liquid hydrocarbon yields from 36% of
theoretical to >80%, reduced catalyst cost by an order o
282 transitions from preclinical to clinical and
theoretical to practical, that pharmacological 2-AG augm
283 While the results of this paper are
theoretical,
to motivate the idea of multiplexing, we pr
284 ve evaluated RDV in patients with SRI due to
theoretical toxicity concerns.
285 ow this neglect can be remedied in a unified
theoretical treatment of mesoscopic electrodynamics inco
286 We reexamine this prediction through a
theoretical treatment of the interplay between three wel
287 First, we provide a
theoretical underpinning for empirical scaling laws repo
288 I review
theoretical understanding of this phenomenon (sometimes
289 C, which is in excellent agreement with the
theoretical value predicted by the Nernst Equation (-59.
290 the modified alpha-MoO(3) electrode exhibits
theoretical-
value-close specific capacity (963 C g(-1) a
291 ce dislocation model is used to simulate the
theoretical values of the postseismic displacements caus
292 This perspective complements our
theoretical view of the human self as information agent.
293 This
theoretical work addresses the characterization of polym
294 Significant experimental and
theoretical work has been devoted to understanding why c
295 Recent experimental and
theoretical work has revealed that such variations are n
296 nd set the stage for future experimental and
theoretical work in the field.
297 Recent
theoretical work proposes that how a neural ensemble's s
298 These results support recent
theoretical work that predicted larger PEGs to form a th
299 ay free-electron lasers; despite substantial
theoretical work the ultimate efficiency of this relativ
300 rk structure, and we suggest avenues for new
theoretical work to strengthen these connections.