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1 istance represents their most distinguishing property.
2 excitation energy appears to be an intrinsic property.
3 PC3 cells, which might boost tumor stem-like properties.
4 irectly influences gas storage and transport properties.
5 l active homeobox genes to acquire oncogenic properties.
6 independent mechanisms that tune the surface properties.
7 enomic signatures that reflect paleodrainage properties.
8 pic human neocartilage with enhanced tensile properties.
9 ically alter their electronic and structural properties.
10 on networks (CRNs) with well-defined dynamic properties.
11 tive mutant of the C2 domain abrogated these properties.
12 ist with reasonable ADME and pharmacokinetic properties.
13 e predicted by the similarity in their image properties.
14 cs, and minerals, greatly impacted the flour properties.
15 vapor barrier, thermal, and biodegradability properties.
16 ent and excellent hole extraction/collection properties.
17  neutrophils, which exhibit cancer-promoting properties.
18 ganized structures with desirable electronic properties.
19 ting known anti-inflammatory and antioxidant properties.
20 actives having antioxidant and antimicrobial properties.
21 stigate their effect on its physico-chemical properties.
22  for their nutraceutical and pharmacological properties.
23 s that display electrophilic or nucleophilic properties.
24 gs of abuse, has both rewarding and aversive properties.
25  harvested, stem cells may exhibit different properties.
26 iven reasons for their stability and unusual properties.
27 uman factor D (FD) inhibitors with drug-like properties.
28 compare their intrinsic assembly and dynamic properties.
29 r distinct chemical, physical and mechanical properties.
30 bstrate-bound protein with different kinetic properties.
31 al value, chemical composition and bioactive properties.
32 e morphological, physiological, and synaptic properties.
33  well as the skin's structure and mechanical properties.
34 ought tolerance, and soil water conservation properties.
35  optimized pharmacological and antiparasitic properties.
36 neurons (channels) tuned for visual stimulus properties.
37 c-level structural correlations and reported properties.
38 a w is critical to simulate realistic cirrus properties.
39 cal, electrophysiological, and neurochemical properties.
40 rcular activity and improved physicochemical properties.
41  that yield manufactured cells with improved properties.
42 which was dependent upon key physicochemical properties.
43 riants with improved antigenic and stability properties.
44 that arise from their fascinating mechanical properties.
45 f hybrid materials with excellent mechanical properties.
46      Asymmetric particles can exhibit unique properties.
47 ence the extraction efficiency were the soil properties; a high organic matter or clay content was ob
48 nstrate that hydralazine has neuroprotective properties against endogenous and exogenous stressors.
49        Thiazole 27 showed excellent in vitro properties and a promising mouse PK profile, making it s
50 remarkably diverse morphology, physiological properties and connectivity.
51 igated whether electrophysiological membrane properties and dendrite morphology, studied in vivo, pla
52  microenvironment regulating oligodendrocyte properties and discuss stem cell tools to identify micro
53 d optimal in vitro ADME and pharmacokinetics properties and dose-dependently counteracted acute lung
54 be precisely modulated to control electrical properties and drug-loading/release characteristics.
55 hesis as a result of their inherent chemical properties and established reactivity patterns.
56 uorescence, characterizing their biophysical properties and imaging them using ultrasound and MRI.
57 substances (HULIS), which influence particle properties and impact climate, human health, and ecosyst
58        The conformers differ in the spectral properties and in the reactivity in various irreversible
59 ature during grain storage on the functional properties and isoflavone profile of soy protein concent
60 fying K(+) current, IK,L , whose biophysical properties and molecular identity are still largely unkn
61 s, which systematically tune its biophysical properties and Pab1 phase separation in vitro and in viv
62 e same individual allowed assessing assembly properties and pinpointing misassemblies.
63 ly in this role due to their intrinsic redox properties and reactivity, but more recently, strategies
64 lymers can have a dramatic impact on polymer properties and self-assembly.
65 been widely recognised for its antibacterial properties and specific taste.
66         This review centers on the intrinsic properties and synaptic regulation that control the acti
67 293 cells with well-characterized electrical properties and the ability to propagate action potential
68 formed to better understand the ground state properties and the photodissociation mechanism of SiH2OO
69        These results illustrate how membrane properties and voltage-gated conductances can extract di
70 pecies despite the different silk mechanical properties and web geometries they produce.
71 ll as full length Sap6, demonstrated amyloid properties, and addition of zinc further increased amylo
72 apeutic/theranostic capabilities), their key properties, and critically their likelihood to be clinic
73 ctural features, fascinating physicochemical properties, and widespread potential applications.
74 thermore, by monitoring how these stochastic properties are affected by spore density and chemicals r
75 ll-free expression system, 35 sequence-based properties are calculated.
76  different effective thicknesses and thermal properties are compared and analyzed for two combination
77 netic layer is formed at the interface whose properties are crucially important in samples with a thi
78 yte interphase (SEI) films with controllable properties are highly desirable for improving battery pe
79  of the ceramic nanolayers on the mechanical properties are revealed in these ceramic-based metamater
80  development, and introduction of additional properties are very much demanded in terms of selective
81 e expected to have comparable optoelectronic properties as the conventional III-Nitride alloys.
82         We propose that emergent biophysical properties associated with phase-separated systems are c
83 stem for characterizing tissue biomechanical properties at microscale level and its translational pot
84  latter results in size-dependent mechanical properties at the nanometer scales.
85 receptor ligands with functionally selective properties between Gs and Golf signaling.
86  RNAP binding or to differences in intrinsic properties between the proteins from these two distantly
87 ayers to control their physical and chemical properties, but little is understood about the morpholog
88 red thin films with heterogeneous mechanical properties can be spontaneously transformed to realise v
89 ated to speciation, and examination of their properties can illuminate how new species evolve.
90 ther than reflecting changes in NADW or AABW properties caused by freshwater input as suggested previ
91                              Physicochemical properties [color, porosimetry, crystallinity, water sol
92         The purified compound showed similar properties compared with TsSPs and commercial PGE2 in mo
93 rication and environment-friendliness, these properties could enable new kinds of electrically driven
94 findings identify CD4(+) T cell subsets with properties critical for improving cancer immunotherapy.
95 Tibetan medicinal plant with pharmacological properties effective in the treatment of various ailment
96 onally, rather than relying on natural viral properties, efforts are underway to engineer viruses to
97 that the manual modality takes on linguistic properties, even in the hands of a child not exposed to
98 in boundary structures while keeping lattice properties fixed.
99 med 'Nano-CarboScavengers' (NCS) with native properties for facile recovery via booms and mesh tools.
100 ganics and large biomolecules with different properties for MS analysis is advantageous.
101 ion times can be used to predict 26 relevant properties for nonpolar chemicals, specifically: partiti
102  ReaChR, a chimeric ChR variant with optimal properties for optogenetic applications.
103 bit very clean on/off fluorescence switching properties for polar volatile organic compounds (VOCs).
104 ulate tomato sauce attributes and tailor its properties for specific applications.
105  used as a biological molecule with inherent properties, for the first time, as the redox probe in th
106 extracting information on intrinsic particle properties from the whole class of interacting magnetic
107 etween processing and history, structure and properties have yet to be made because measuring amorpho
108 ports of the strong modulation of electrical properties in 2002.
109  are contingent upon retaining their optical properties in an aqueous environment.
110 T helper subsets with distinct immunological properties in both healthy individuals and cancer patien
111 e extensively discuss the potential of these properties in nanomedicine to down-regulate inflammatory
112 oring to assess allergen-specific CD4 T-cell properties in parallel with analysis of local mucosal cy
113 pes reflect the divergence of UGT89A2 enzyme properties in the Col-0 and C24 accessions.
114 tes a novel route to the enhanced functional properties in the material system with reduced dimension
115 spatially patterning cell types and scaffold properties in three dimensions.
116               However, the thermal transport properties in TMDs are not well understood due to the ch
117 ich represents a key physicochemical surface property in various fields ranging from electrochemistry
118 d, whereas the importance of tissue material properties, in particular stiffness, has received much l
119    We report on the superior electrochemical properties, in-vivo performance and long term stability
120 to favorable predicted human pharmacokinetic properties, including a predicted half-life of 16-19 h.
121 iafgp), which encodes a protein with several properties, including the ability to alter bacterial bio
122 sorption and the effect on electron transfer properties is investigated via computational analysis, t
123 adopted strategies to optimize individual TE properties is presented.
124   Optimization of a protein's pharmaceutical properties is usually carried out by rational design and
125                              This remarkable property is applied to de novo sequencing of underivatiz
126 tdIns) molecules between membranes, and this property is central to PITP-mediated regulation of lipid
127                                This chemical property is manifested at physiological concentrations b
128 gs, with reported rapid onset antidepressant properties, is coupled with a rapid transient rise in gl
129 le sequencing platforms with different error properties; it minimizes false positives resulting from
130                                        These properties license CD26(high) T cells with a natural cap
131                                        These properties likely arise from different acetylation patte
132                                        These properties may contribute to inhibition of distinct NMDA
133 tion to their well-established antimicrobial properties, neutrophils can contribute to optimal host p
134 ratory analysis; the more formal statistical properties obtained under idealized assumptions will be
135               The physical and spectroscopic properties of 1 do not match the data reported for the n
136                                  The binding properties of 40 CBMs, in fusion with an N-terminal GFP
137                                   Mechanical properties of a cell reflect its biological and patholog
138 only used polysaccharide to the organoleptic properties of a food.
139 states can be used to control the mechanical properties of a material along an edge or around a local
140  report for the first time the high sorption properties of a molecular rotor with no permanent voids
141 sed on interactions that exclusively involve properties of a node's nearest neighbors.
142 irmed the pronounced foaming and interfacial properties of acid camel whey, even if acid and sweet bo
143                With new tools available, the properties of adipocyte precursors can now be defined, a
144 l structure, we investigated the biophysical properties of At2g44920 as a representative of the beta-
145 iomass burning event on the light absorption properties of atmospheric brown carbon (BrC).
146  cellulase (35 and 60ppm) on the rheological properties of bread dough.
147                                 However, the properties of CaMKII that mediate Ca(2+) signals in spin
148                     The exceptional material properties of carbon materials permit Terahertz operatio
149  We aimed to assess the electrophysiological properties of CI channels during mapping with the Intell
150 caffolds, and the mechanical and degradation properties of CM-ALs (10%) scaffolds were comparable to
151 It is demonstrated that the physical surface properties of conducting polymer microcups can be precis
152                                          The properties of cuprate high-temperature superconductors a
153                              The exceptional properties of CVD graphene were exploited to construct a
154 n the mechanical response and the electronic properties of CVD-grown structures.
155   This approach also allowed us to study the properties of distinct AML subclones, including differen
156  we aimed to define the electrophysiological properties of DMV neurons in A53T-SNCA mice.
157       Erosive wear undermines the structural properties of enamel resulting in irreversible enamel lo
158 .SIGNIFICANCE STATEMENT We characterized the properties of evoked neural responses to phoneme instanc
159 nds in the electronic structures and optical properties of expanded, contracted, and isomeric porphyr
160 olarized channel inactivation resembling the properties of F1.Q54 neuronal sodium channels.
161 mune responses based on the immunomodulatory properties of Fc-FcgammaR interactions.
162  phenolic contents and antioxidant activity) properties of firiks were investigated.
163  model was trained to recapture the observed properties of fractional killing, it was analyzed with n
164                                    Signaling properties of G protein complexes carrying mutant Gbeta1
165 de chains does not alter the photoconductive properties of GNRs, the edge structure has a strong impa
166        In this paper, we analyze fundamental properties of Granger-Geweke (GG) causality, both comput
167                                          The properties of graphene open new opportunities for the fa
168                               The remarkable properties of graphene stem from its two-dimensional (2D
169 strates a means of tuning the structures and properties of high-entropy alloys in a manner not achiev
170 n solubility or stability, the thermodynamic properties of hydration water must reflect on the proper
171 tic radiation, can give rise to the emergent properties of in-phase, out-of-phase, anti-phase synchro
172 act of encapsulated molecules on the thermal properties of individual carbon nanotubes (CNTs) has bee
173                                The sensorial properties of intravaginal gels, and how these relate to
174              They reveal how the metamorphic properties of KaiB, a protein that adopts two distinct f
175 nd growth factors (GFs) influence functional properties of key cells in RA, especially synovial fibro
176 ed analysis of the connectivity and neuronal properties of lamprey pretectal cells.
177                  The interesting and tunable properties of layered metal dichalcogenides heavily depe
178 nd poses is then used to investigate general properties of ligand binding: we observe both a direct s
179 s by modifying fundamental nonlinear optical properties of light interacting with the retinal chromop
180 ttribute differences in the self-association properties of Loqs, TRBP and PACT to divergence of the c
181                               We discuss the properties of macrophages in steady-state barrier tissue
182 ed senescence could change stem-cell-related properties of malignant cells.
183 s of roughly 5% in predicting the scattering properties of many biological tissues.
184 throughout nature and determine the physical properties of materials.
185  of catecholic small molecules, the physical properties of melanins are influenced by covalent and no
186 haviour in combination with other remarkable properties of monolayer two-dimensional materials could
187 tical to the understanding of the functional properties of MSMAs.
188  are no approaches to assess the rheological properties of mucin granule matrices in live cells.
189 o sodium channel blockers and the functional properties of mutations in children with SCN2A-related e
190 method significantly affects electrochemical properties of NDs and (iii) the ND coatings selectively
191 ry cortex (A1) can shape the receptive field properties of neurons in the ventral division of the med
192          Comparing our results with observed properties of over 400 CMEs, we show that CMEs cease to
193  are directly coupled to the electromagnetic properties of oxides and related emergent functionalitie
194 ons in providing insight into the functional properties of particular nucleosomes in their native mol
195 ed a measurable reduction in the IgE binding properties of pastes made from treated cashew and pistac
196 ion impact the chain dimensions and physical properties of polymers.
197        The results are important to document properties of primary particles from combustion sources,
198  that these cells recapitulate the antiviral properties of primary trophoblasts through the constitut
199 s had significant effects on the micrometric properties of proniosome powders which were further conf
200 ume due to changed structural and functional properties of protein and starch.
201 nteractions, and improve the pharmacological properties of proteins.
202 rsion-bound systems, we explore the physical properties of prototypical ABO3 bulk ferroelectric oxide
203 rvable-based approach to identify structural properties of quiescent glasses and relate them to glass
204 he retinotopic map in V4 matches many of the properties of receptive field remapping.
205 compared the effects of the mutations on the properties of recombinant alpha1beta2gamma2L GABAA recep
206 very followed by improving of the functional properties of rice bran.
207                   The optical and electronic properties of semiconducting materials are of great impo
208                            We also study the properties of smallest exogenous shocks as a function of
209 , a mechanism that critically links cellular properties of T-type Ca(2+) channels to their physiologi
210 utilize information about the distributional properties of task-relevant categories, in addition to s
211 hange is the difference in the thermodynamic properties of ternary FeSexTe1-x, based on first princip
212 anges to the photoluminescent and absorption properties of the C-dots.
213                                          Key properties of the calcium signatures are not intuitive,
214                               The ionization properties of the glycopeptides with different classes o
215 rties of hydration water must reflect on the properties of the heterogeneous protein surface and thus
216                                The switching properties of the hydrazones in both toluene and DMSO we
217  InGaN DA showing the tunable optoelectronic properties of the III-Nitride DA.
218  protonation module allows extraction of new properties of the ion atmosphere and provides an electro
219 aight lines, an absolute scale of inhibition properties of the lipid peroxidation can be devised.
220 nductor, and, in turn, affect the electronic properties of the material.
221  judgment of speed is influenced by physical properties of the moving object, though the neural mecha
222 NTs would assist in improving the electrical properties of the MWCNT-CuCr composites.
223 irus replication and highlight the conserved properties of the NoV NS3 proteins among the seven Norov
224 termediate filaments modulate the mechanical properties of the nucleus and also chromatin condensatio
225 generation machinery to probe the mechanical properties of the opposing antigen-presenting cell, givi
226 actions of known structure and analysing the properties of the protein interface.
227                               The structural properties of the resulting network depend on how much o
228                               These physical properties of the tissue connect across scales such that
229 e determined, at the translational level, by properties of the transcript's sequence.
230  functional families) and we use the network properties of these druggable protein families to analys
231                 The vertical composition and properties of these films are designed at the atomic sca
232                               The mechanical properties of these materials are, however, diverse, and
233  us to predefine the mechanical and physical properties of these materials, achieved by the definitio
234 we describe the structural and photophysical properties of these unique compounds.
235 ed for its solar cell application, intrinsic properties of this material are still largely unknown.
236 e tailored based on the unique immunological properties of this organ.
237 ectrochemically generated and the electronic properties of this unique high-valent state may be probe
238     Cellular-scale imaging of the mechanical properties of tissue has helped to reveal the origins of
239                              The antioxidant properties of trans-aconitic acid (TAA) alone or in the
240 ition to suppressing migratory and stem-like properties of tumor cells, also inhibit endothelial phen
241 p in this direction, we investigate here the properties of two C60 molecules placed in parallel and s
242 -year record (2003-16) of the physiochemical properties of two High Arctic lakes and show that the co
243                                   Electronic properties of two-dimensional (2D) MoS2 semiconductors c
244  this study, composition and physicochemical properties of whole grain flour from 7 quinoa samples ha
245 sible alternative to increase the functional properties of yogurts.
246 f light in the medium which enhances the LMR properties of zinc oxide thereby increasing the conducti
247 ins the photoconductive and photoluminescent properties of ZnO QDs and is applied towards substrate-f
248 e that metabolic heterogeneity is a distinct property of activated beige/brite adipocytes that might
249 sspecification; our results highlight TMLE's property of double robustness.
250 and uniform correlation between any material property of each bead and that bead's effect on SOD1 fib
251 fect cell viability and electrophysiological property of neonatal rat ventricular myocyte (NRVM) cult
252 in this protein likely reflects an intrinsic property of Tau fibrils.
253 ver, in a complete V1-ATPase, the mechanical property of the central stalk is a key determinant of th
254 sts that the adder phenomenon is an emergent property of the independent regulation of pre- and post-
255                                   These m826 properties offer a template for H7N9 vaccine immunogens,
256 gineered biomaterials with smart and tunable properties offer an intriguing tool to provide or delive
257  The critical role of two-phase hydrodynamic properties on non-Fickian transport and saturation-depen
258 ardest tissue found in vertebrates owing its properties partly to the unique mixture of ionic species
259 ssues simultaneously, we identified chemical properties promoting delivery to some tissues relative t
260 ion and assessments of changes in amino acid properties provide evidence of positive selection on the
261 ty, water solubility and absorption, pasting properties, reconstitution test, proximate composition,
262       The exploration of molecular structure-property relations is crucial to optimize gamma but requ
263 eatly facilitate research into the structure-property relationships of sophisticated polymeric materi
264  the context of synthetic control, structure-property relationships, and applications are discussed.
265 oclonal antibody is an important biophysical property relevant for its developability into a therapeu
266 l nanoparticle geometry, and controlling its properties, remains a challenge.
267                          Predicting emergent properties represents a huge theoretical problem since t
268 trated region of negative charge, not steric properties, resulting from multiple interdependent phosp
269  low thermal conductivity and good transport properties results in a predicted ZT as high as 1.5 for
270 des but also, to determine the broadcasters' property rights, the goods to be exchanged, the quantiti
271 asurface coating can control several optical properties simultaneously over a broad frequency range.
272 emory processes, little is known about these properties specifically on cue-activated neuronal ensemb
273 t of devices for the medical proposes due to properties such as an elevated surface area and excellen
274 rba mate beverages maintain their functional properties such as antioxidant, antibacterial and antitu
275 irect input for DFT calculations of material properties such as atomic spin and orbital magnetic mome
276                            The structure and properties such as low detection limit, selectivity and
277  organism and accurately derive its material properties such as the elastic modulus and poisson's rat
278 erate the discovery of materials with target properties, such as auxetics, using high-throughput comp
279 ws derive from the geometrical cell-membrane properties, such as membrane curvature, volume, and surf
280 owever, it is unclear whether the same river properties that structure variation on recent timescales
281                   Based on these exceptional properties, the authors have demonstrated by both experi
282 -forming sample result in stiffer mechanical properties, the molecular mobility of the sample almost
283 uce a concept for the domain wall electronic property, the walls own internal degrees of freedom, whi
284 he controllability of domain wall electronic properties.The electronic states within domain walls in
285 gh GRG and OURT possess different pathogenic properties, there was significant overlap in the most up
286 ts therapeutic, pharmacological and chemical properties, thereby substantially expediting the pace of
287 ough which MZB cells use their innate immune properties to limit an exaggerated adaptive immune respo
288 a receptors and has suitable pharmacokinetic properties to overcome limitations of previous approache
289 absolute error of 3.33 weeks and has similar properties to the recently described human epigenetic cl
290 ecules suggests that it is a relatively easy property to develop through evolution.
291 and ZIF-8, were interrogated for their redox properties using Fourier transformed alternating current
292 ce into multifold changes in their intrinsic properties, we report on a mechanochemically responsive
293  on native community structure and ecosystem properties were evaluated as a function of dispersal rat
294 , optical, electrical, and electromechanical properties, which delineate them from their bulk counter
295 trongly depends on its physical and chemical properties, which is heavily controlled by its molecular
296 loading leads to size-independent mechanical properties while the latter results in size-dependent me
297  are renowned for their rich and varied bulk properties, while their single-layer variants have becom
298 neering both imaging modalities and material properties with improved contrast, providing a timely pr
299 quality end-product with increased bioactive properties without compromising total yield.
300 all result in good mechanical and electrical properties, without any postprocessing steps.

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