ライフサイエンスコーパス: control over

1 r were estimated from variability in healthy controls over 1 year.

2 growth in aqueous solvent, achieving precise control over 1D nanostructures in water, an essential fe

3 dy enrolled 4232 hospitalized cases and 5325 controls over 2 years across 9 research sites in 7 count

4 30-min sessions) or treatment as usual (TAU) control over 25 wk.

5 y outcome was clinical improvement in asthma control over 3 months.

6 INTERPRETATION: More intensive glucose control over 5 years reduced both kidney and eye events.

7 expected to assist in establishing rigorous control over a broad class of biological processes in ce

8 anar transistors by exerting additional gate control over a channel from two lateral sides of semicon

9 s and demonstrates that MYC TFs exert master control over a JAZ-repressible transcriptional hierarchy

10 d that CB1(+) FSIs exerted robust inhibitory control over a large percentage of nearby MSNs in contra

11 Here, the authors show that control over a polypeptide conformation can be achieved

12 have advantages with respect to having full control over a variety of physiological parameters such

13 vent-free and that membrane tension could be controlled over a physiological range.

14 ed by Arp2/3 as an effector of WASP-mediated control over actin polymerization, mutations in protein

15 axon initial segment (AIS) and exert strong control over action potential generation.

16 onalized electrodes do not allow for precise control over all these variables, especially the NP-elec

17 ts have suggested that exercising behavioral control over an aversive stimulus can persistently dimin

18 of a thin-film superconductor, in which the control over an externally applied magnetic field suffic

19 results mark the very first demonstration of control over anisotropy direction, which is a significan

20 ined which scavenging enzymes exert the most control over antioxidant fluxes in H9c2 cardiac myoblast

21 rt a frequency-dependent, cell-type-specific control over BA circuitry via 5-HT and glutamate co-rele

22 Discrete cues can gain powerful control over behavior to help an animal anticipate and c

23 activity in STs degrades top-down executive control over behavior, producing a bias for bottom-up or

24 haps because of better executive/attentional control over behavior, which requires frontal cortical c

25 lowing such cues to exert relatively greater control over behavior.

26 inal pilin domain exerts negative allosteric control over binding of the N-terminal lectin domain to

27 d methodologies for improving strategies for control over biological processes.

28 Dynamic optical control over both magnetization and chemical potential o

29 Pacemaker neurons exert powerful control over brain circuit function, but little is known

30 ugh relatively few in number, exert powerful control over brain circuits.

31 ered mechanism, we demonstrate bidirectional control over brain endothelial permeability.

32 surface features on POPs, thereby affording control over bulk material properties.

33 as well as modeling and forecasting nutrient controls over carbon-climate feedbacks.

34 VNS control over cardiac function is maintained during chron

35 of regulated porosity to gain a new level of control over catalyst performance, resulting in essentia

36 gated whether and how archaeal cells exhibit control over cell size.

37 r a link between sirtuin proteins and direct control over cellular iron homeostasis via regulation of

38 r contributes to the narrow dispersities and control over chain growth observed under these condition

39 rationally design carbon-supported catalysts.Control over charge transfer in carbon-supported metal n

40 This spatiotemporal control over chemical reactions can also be performed ov

41 r studies, our results suggest that accurate control over cluster sizes in submonolayer catalyst syst

42 omputational studies support kinetic product control over competing aromatic labeling and decarbonyla

43 These schemata imply personal safety and control over continuing or discontinuing exposure to art

44 ntrol over self-assembly pathways can enable control over covalent bond formation.

45 rmal or chemical means; purely electrostatic control over crystal phases through electrostatic doping

46 While control over crystal structure is one of the primary obj

47 terface as a platform, allowing simultaneous control over crystallization and morphology of the frame

48 task space and exert high-level and abstract control over decision and action.

49 Herein, we demonstrate that control over delicate nanotopography of silica nanoparti

50 that Openspritzer provides the same level of control over delivered reagent dose as the commercial sy

51 rent template designs are conceived to exert control over different planes of the blue-phase lattice

52 of 8 subjects preferred pattern recognition control over direct control.

53 Thus, GnRH nerve terminal function is controlled over disparate timescales via both classical

54 these regulators maintain mostly independent control over distinct groups of transcription factors, s

55 ccupation with obtaining cocaine and loss of control over drug intake.

56 d and traditional gels typically have little control over drug release rates.

57 The shift over time and experience of control over drug seeking from a limbic cortical-ventral

58 e examine the effects of LHb inactivation in control over drug seeking in several cocaine self-admini

59 b dysfunction may have a role in the lack of control over drug seeking.

60 High levels of cognitive control over eating appear to attenuate the genetic susc

61 f radiation and CpG displayed superior tumor control over either treatment alone.

62 to be efficient to fabricate, and to provide control over electronic performance.

63 The confinement-enabled control over electronic properties, however, requires na

64 variability is the agentic decision to exert control over emotional responses.

65 growing interest in designing spatiotemporal control over enzyme activities using noninvasive stimuli

66 ith paroxysms driven by a loss of inhibitory control over excitatory autonomic centres.

67 ursor for these stimuli to gain and maintain control over fear and safety behavior.SIGNIFICANCE STATE

68 ntal glycolysis may allow increased maternal control over fetal nutrition and metabolism.

69 ghput amyloid assays of SOD1 that enable the control over fibril morphologies and produce eightfold f

70 xin (in its reduced form), exert substantial control over flux toward monoterpenes.

71 tuation is a learning mechanism that enables control over forgetting and learning.

72 at allow a significant degree of independent control over gastrointestinal functions, the central ner

73 Epigenetic mechanisms are known to exert control over gene expression and determine cell fate.

74 avoiding the cytosol, enables photosynthetic control over gene expression.Multiple plastid-derived si

75 that enables precise spatial and mechanical control over genetically encoded cell-surface receptors

76 utively active, precise temporal and spatial control over genome editing and transcriptional regulati

77 nd inhibitory conductances provides flexible control over Golgi cell spiking, allowing either excitat

78 not articulate their value, they risk losing control over how imaging is delivered and supported.

79 Permafrost exerts an important control over hydrological processes in Arctic landscapes

80 se results reveal that climbing fibers exert control over inhibition at both the input and output lay

81 paradigms of condensed matter physics, where control over interactions has crucially been afforded by

82 However, achieving precise control over interfacial properties, and thus reaction s

83 erneurons local to the hippocampus implement control over intrusive thoughts.

84 t health, so the extent of a plant's genetic control over its microbiota is of great interest to crop

85 Only after the parasite gains control over its transmission is the symbiosis expected

86 It is of paramount importance to improve the control over large area growth of high quality molybdenu

87 As it becomes possible to exert more control over larger numbers of qubits, such simulators w

88 account for greater mnemonic and contextual control over LHb-mediated response flexibility as verteb

89 guiding Li deposition and realizing spatial control over Li nucleation.

90 ach to use of ionic transport for electrical control over light-matter interactions.

91 eve certain goals without requiring accurate control over local operational details; for example, the

92 Enabling control over macromolecular ordering and the spatial dis

93 ocal mate competition combined with parental control over marriages may escalate conflict between sam

94 eported, which allows high-levels of spatial control over mechanical and chemical properties.

95 implants, to mechanical weight reduction and control over mechanical properties.

96 ost importantly, these results indicate that control over membership of such a cooperative group can

97 ell-defined, asymmetric membranes facilitate control over membrane flux and selectivity, enable the f

98 tes between the enzymes, providing increased control over metabolic pathway fluxes.

99 tallization-driven self-assembly for precise control over micelle formation to prepare a new recyclab

100 d to demonstrate that PEG tuning can provide control over micrometastasis tracking with high tumor-to

101 citation, suggesting a new avenue for active control over molecular function.

102 provided functional polymers with excellent control over molecular weight and copolymer composition.

103 timized in order to achieve a high degree of control over molecular weight and dispersity (such as th

104 ay play a functional role in SIRT6-dependent control over monocyte glycolysis, an important determina

105 es, but this method is hindered by a lack of control over monolayer density and by secondary interact

106 SCs into micro-niches, tissues gain precise control over morphogenesis and regeneration: some progen

107 Control over morphology and crystallinity of metal halid

108 mplexity among JAZ-TF interactions maintains control over myriad aspects of growth, development, repr

109 Synthetic methods that enable precise control over nanoparticle morphology currently require s

110 raction, but they exert a powerful and tight control over neuronal activity and consequently modulate

111 her, these results reveal an input-dependent control over neuronal excitability and dendritic complex

112 m and nitrite, thereby exerting an important control over nitrogen loss.

113 Sense of agency refers to the feeling of control over one's actions, and their consequences.

114 egulation in OCD in the form of poor frontal control over overactive BG, and a frontostriatoinsular m

115 In ultracold atomic gases, control over pairwise interactions enables us to investi

116 We propose that, rather than exerting tight control over parameters, the auditory system uses a home

117 How the control over PG synthesis is exerted is unknown.

118 with reconfigurability, high efficiency, and control over phase and amplitude is a challenge.

119 ch addresses several key challenges, such as control over phase purity, uniformity, grain size, compo

120 ification of direct and indirect temperature controls over plant communities and soil properties in s

121 Mitochondria exert important control over plasma membrane (PM) Orai1 channels mediati

122 Precise control over polymer architecture unlocks the potential

123 s for polymer synthesis, owing to impressive control over polymer composition and associated properti

124 of different polymer lengths demonstrate how control over polymer length leads to control over the el

125 Control over polymer sequence and architecture is crucia

126 Synthetic control over pore size and pore connectivity is the crow

127 In conjunction with a tight control over pore sizes, inverse opal scaffolds have fou

128 es of zeolites with unprecedented continuous control over porosity, and the design and preparation of

129 ncing highly specific geometry that includes control over position, dihedral angles, and cluster chir

130 l conditions enables accurate spatiotemporal control over protein or drug activity.

131 ential translation factor that exerts strong control over protein synthesis.

132 Realizing atomic-level spatial control over qubits, the fundamental units of both quant

133 e thermal inertia that all provide excellent control over reaction conditions, and (iii) the presence

134 ional thermal strategies, including improved control over reaction kinetics and low synthesis tempera

135 Flow equipment provides chemists with unique control over reaction parameters enhancing reactivity or

136 to spermatophore digestion and hence, female control over remating rate.

137 ric shape of the environment exerts powerful control over reorientation behavior, but the neural and

138 marily related to road density, the dominant control over runoff volume.

139 Yet, this exquisite control over selectivity comes at an operational price t

140 t modes of self-assembly, demonstrating that control over self-assembly pathways can enable control o

141 g this transmission symmetry offers enhanced control over signal transport, isolation and source prot

142 er of experiments, a more general, dynamical control over site-energy and off-diagonal tunnelling dis

143 ptimal membrane mimetic system that provides control over size, composition, and specific functional

144 ensemble measurements, as well as imperfect control over size, shape, faceting, surface reconstructi

145 Ca(2+) signals to effect mitochondrial redox control over SOCE.

146 This gives a finer control over soliton velocity which can take both positi

147 ion and properties of these materials can be controlled over space and time by the kinetics of the co

148 p better predictions about, and methods for, control over specific biological processes and system-wi

149 onics but symmetry constraints can limit the control over spin polarization.

150 hat preferentially optimizes dynamic network control over static network architecture.

151 ry control deficits possibly underlying poor control over stereotyped and repetitive and compulsive b

152 sounds, and (c) to ensure that subjects have control over stimulus presentation.

153 of material, nanocomposites, with exquisite control over structural and chemical parameters at multi

154 ment and high degree of tunability stem from control over substrate binding.

155 led structures require a stringent degree of control over such aspects as functionality location, mor

156 Control over tacticity to produce stereoblock PLA, from

157 the following key challenges: (i) obtaining control over temporal rescaling of the sequence speed, w

158 We demonstrate powerful, all-electronic, control over the amplitude and frequency of the laser ou

159 training or hands-on tutorials, the lack of control over the analysis tools and repositories often r

160 ration of various Ub conjugates with precise control over the atomic structure.

161 NP composites affords an unrivaled degree of control over the catalytic environment, providing a mean

162 ality and complexity, allowing unprecedented control over the cells that interact with them.

163 Microfabrication tools allow precise control over the cellular microenvironment towards stabi

164 h incredibly complex structures and specific control over the chain topology, as well as providing th

165 Hereby, full control over the charge shift between H2P and ZnP to con

166 The hydrogel allows exquisite control over the chemical and physical in vitro niche an

167 s chiral selectors were developed to achieve control over the chiral recognition of alpha-amino acid-

168 We thus suggest that better control over the composition and properties of the surfa

169 Efficient control over the conversion of optical angular momentum

170 in current organic polariton devices, direct control over the coupling strength (Rabi splitting) via

171 enes, integrates external signals and exerts control over the decision between self-renewal and diffe

172 Precise synthetic control over the degree of oxidation of naphthazarin qui

173 , and -NO2) on the imidazole linkers provide control over the degree of rotation and thus the critica

174 he constituents, potentially allowing direct control over the dielectric function.

175 h in an alcoholic solvent, we show exquisite control over the dimensions and dispersity of these nano

176 tries, which enables large surface areas and control over the distribution and concentration of edge

177 Control over the doping density in copper sulfide nanocr

178 ator approach adds a supramolecular level of control over the dynamic system and allows the dynamic e

179 eat potential for achieving a high degree of control over the dynamics and output of ultrafast fibre

180 e of the applied voltage to exert a level of control over the electrohydrodynamic forces generated by

181 ate how control over polymer length leads to control over the electronic and luminescent properties o

182 ion generally requires arbitrary and precise control over the entire system.

183 ulti-enzyme systems with precise and dynamic control over the enzyme pathway activity are of great si

184 y way to minimize it is by ensuring enhanced control over the factors that affect the reaction.

185 tient-controlled analgesia (IV-PCA) for pain control over the first 48 hours after hepatopancreatobil

186 ture effectively allows for a high degree of control over the formation of both kinetic alpha-phases

187 de-bound mechanism allows for stereochemical control over the forming olefin.

188 daptive response to having relatively little control over the future.

189 oxide Ga2FeO4 (GFO) nanocrystals (NCs) with control over the gallium and iron content.

190 Engineering the preform structure grants control over the geometry and materials architecture of

191 This approach allows the precise control over the geometry and stoichiometry of complex f

192 raphene growth due to the advantages of good control over the graphene thickness, the growth of high-

193 ame of reference often exerted the strongest control over the grids, the remote cues demonstrated a c

194 However, achieving even minimal control over the growth of two-dimensional lateral heter

195 Control over the helical organization of synthetic supra

196 e reviewed and recent advances in structural control over the hierarchical assembly process are repor

197 The dynamic control over the hole doping density and fluorescence of

198 y yield high polymer-to-cell ratios and lack control over the hydrogel's mechanical properties.

199 They also reveal that strict control over the IM-to-OM distance is required for effec

200 Its control over the immune system and functions are perhaps

201 as atomic clocks and quantum computers, and control over the interaction between atoms and their nei

202 Achieving this level of control over the interfacial structure requires transfor

203 Control over the intrinsic properties, including their c

204 This new strategy allows full control over the introduction of various sensitive funct

205 ssay with nanodisc samples provides reliable control over the ionic condition and information of the

206 thinnest possible devices, precise nanoscale control over the lateral dimensions is also necessary.

207 protein's isotopic constitution, and (iii ) control over the lipid environment available to the prot

208 crotubule filaments, one can gain additional control over the liquid crystal's elasticity.

209 ared wavelengths using temperature-dependent control over the low loss plasma frequency in III-V semi

210 ared wavelengths using temperature-dependent control over the low-loss plasma frequency in III-V semi

211 We establish control over the magnitude, velocity profile, and direct

212 gy based on loss engineering to achieve more control over the mode selectivity by suppressing the mod

213 Precise control over the morphology and dimensions of block copo

214 Control over the morphology of the active layer of bulk

215 Such designer photonic media with complete control over the optical properties provide a platform f

216 Control over the optical response of metal nanoparticles

217 This requires spatial and temporal control over the organisation of molecules and molecular

218 As a result, we anticipate large control over the organisation of the materials inside th

219 This increased control over the orientation of antibodies in nanostruct

220 nct features such as (i) an easy and precise control over the particle size and shape, (ii) a high en

221 ofound reconfigurations in land use and land control over the past several decades and (ii) evidence

222 reconfigurability, high efficiency, and full control over the phase and amplitude of scattered light

223 maintain the period of molecular rhythms via control over the phase of gene transcription and this ti

224 is by investigating the degree of achievable control over the photoisomerization of the retinal proto

225 The ability to achieve predictable control over the polarization of strained cycloalkynes c

226 processes including gene expression, whereas control over the precise spatial arrangement of cytoskel

227 Here we demonstrate control over the presence of quantum-beating signals by

228 ndary structure coupled to the high level of control over the primary sequence results in a system wi

229 nclusion of uORFsTBF1-mediated translational control over the production of snc1-1 (an autoactivated

230 ace functionalization that allow for precise control over the properties of NDs.

231 polymer gel properties and promises enhanced control over the properties of such gels.

232 Usp14 exerts complex control over the proteasome, suppressing proteasome acti

233 one of the two output channels with precise control over the ratio between waveguide outputs.

234 w synthetic transformations, enable improved control over the reaction selectivity, and improve catal

235 Exerting well-defined control over the reflection (R), absorption (A), and tra

236 Spatiotemporal control over the release or activation of biomacromolecu

237 Control over the release rate of the drug from the linke

238 le materials that provide exquisite, tunable control over the sequestration and delivery of materials

239 Establishing precise control over the shape and the interactions of the micro

240 es, the new process reported here enables 3D control over the shape and thickness of the removed regi

241 the design of artificial heteropolymers the control over the single chain self-assembling properties

242 tags' for downstream modification, exquisite control over the site of subsequent modification is achi

243 With precise control over the size, shape and composition of individu

244 efficient electrocatalysts by more rational control over the size, shape, composition, and structure

245 Control over the solubility properties of container mole

246 the main chain, which demonstrates external control over the SP conformation that may ultimately lea

247 tion of functional elements in order to gain control over the spatial and temporal elements of fundam

248 ol uses a two-eigenstate admixture, but more control over the spatial distribution of the wavefunctio

249 The demonstrated level of control over the spatial orientation of LCLC opens oppor

250 chnologies is the ability to provide further control over the specific phenotypes of T cells arising

251 external magnetic field, resulting in robust control over the speed and direction of propulsion.

252 allenge for this field is exerting atomistic control over the structure and composition of the consti

253 gation pathways is applicable to the kinetic control over the supramolecular polymerization by the se

254 stablishing a higher degree of precision and control over the surface and the interface of perovskite

255 This method allows for precise control over the surface chemistry, and therefore the tr

256 lly stable 3D scaffolds, the fabrication and control over the synthesis of such architectures still r

257 competing frustrated interactions with more control over the system parameters than is possible in m

258 This prevents control over the thermal storage, and developing effecti

259 y direct current power supplies with no user control over the total charges generated.

260 We envisioned that control over the trans/cis amide bond ratio may provide

261 ve organic materials, and allows exceptional control over the transistor channel length.

262 vironment offers a mechanism for significant control over the transport band gap.

263 s superior power over SKAT while maintaining control over the type I error rate.

264 sive Bloch-Siegert shift allows for enhanced control over the valleytronic properties of two-dimensio

265 The ability to achieve simultaneous control over the various electromagnetic properties of d

266 system, whose manipulation requires precise control over the whole system.

267 their clinical translation requires improved control over their degradation rates.

268 rmation of shaped nanorods, with independent control over their density and length.

269 hollow self-folding tubes with unprecedented control over their diameters and architectures at high r

270 and promoter phases, typically with no fine control over their localization.

271 vinyl acetate)s are presented with excellent control over their molecular properties obtained through

272 ower-SES individuals that serves to increase control over their more threatening social environments.

273 y realize quantum phases of matter and exert control over their properties is a central goal of moder

274 The control over their secondary structures, which enables d

275 itation is the inability to achieve temporal control over their sensing function.

276 size intermetallic nanocrystals with a tight control over their size and shape.

277 produce nanocomposites with unique level of control over their structural and compositional paramete

278 Thanks to the precise control over their structural and functional properties,

279 g derivatives of (+)-pleuromutilin with full control over their structure presents an opportunity to

280 to obtain regular synthetic cages with full control over their surface properties.

281 n absence epilepsy) could exercise voluntary control over these epileptiform events.

282 photocatalysts afford complementary chemical control over these reactions to design elaborated polyme

283 However, achieving precise control over these structural parameters presents long-s

284 To exert control over this rate-limiting step, we designed sequen

285 With most applications requiring precise control over this surface modification, characterization

286 e results suggest that experiences of active control over threat engage the striatum and promote a sh

287 topological insulators (TIs) require spatial control over time-reversal symmetry and chemical potenti

288 rs, better outcomes, and more effective cost-control over time.

289 ion of the Cu single crystal electrodes were controlled over time.

290 NA decay, introducing an additional facet of control over transcript fate and developmental reprogram

291 s to protein localization by providing local control over translation.

292 n nanopore-based sequencing platforms, where control over translocation speed remains one of the main

293 mune therapeutic strategies aimed to improve control over tumor growth have sparked hope that long-li

294 Gaining precise control over various aspects of the polymers, such as ch

295 rvous system performs sophisticated feedback control over very short time scales (<100 ms for upper l

296 Control over visual selection has long been framed in te

297 raacetic acid (EDTA) in DMSO exerts superior control over wafer coverage and film thickness, and the

298 potable reuse scenario, might provide better control over water quality than the status quo condition

299 he reaction conditions provides experimental control over which site is modified (and how).

300 led that the soft skin layer enabled dynamic control over wrinkle topography without cracks or delami