ライフサイエンスコーパス: control over

1 halamus and striatum in patients compared to controls over 2-years.

2 stically significant improvement in glycemic control over 26 weeks.

3 care (surgeon's choice) for pain management (control) over 30-days postoperatively.

4 ulin), was efficacious in improving glycemic control over 52 weeks.

5 Performance stability is controlled over 6 weeks in vivo.

6 A new genetic marker enables precise control over a group of inhibitory neurons in monkeys.

7 nds, leading to unprecedented spatiotemporal control over a material's chemical, physical, and biolog

8 al protecting groups that give investigators control over activation of biomolecules using targeted l

9 and that only S (and not DOC) has regulatory control over active ion transport in the gills.

10 this site exerts the most potent allosteric control over activity of any pockets found in beta-lacta

11 odynamic forces to exert nanoscale-precision control over aqueous particles, without directly illumin

12 functional synthetic cells requires spatial control over arrays of biomolecules within the cytomimet

13 lize the prospect of higher-order, nanoscale control over associative cross-link exchange and flow.

14 sible chiral carboxylic acid catalyst exerts control over asymmetric cyclizations of acyclic ketone-d

15 ces in this field have achieved such precise control over atomic systems that gravity, often negligib

16 (by contact with a metal heating coil), and control over batch-to-batch variability.

17 ryday examples of an inability to exert such control over behavior are the overconsumption of food an

18 l amygdala therefore facilitates cue-induced control over behavior by both increasing anticipation of

19 st that BLA-mediated activity facilitates CS control over behavior by enhancing both appetitive Pavlo

20 issociated the two strategies, revealed that control over behavior was adaptively and dynamically wei

21 onsive promoters which enable user-specified control over biological function.

22 or proximity or construct tools that provide control over biological signal transduction processes.

23 spatiotemporal, quantitative and reversible control over biological signaling and metabolic processe

24 anisms and phenotypes owing to its exquisite controls over biological and chemical environments.

25 essed reflective liquid crystal display with control over black states.

26 entary anilines, demonstrating unprecedented control over bond formation at the nanoscale.

27 ty relationship by demonstrating a practical control over both geometric and electronic structures of

28 reversible pluripotent intermediate whereby control over both pluripotency progression and morphogen

29 ers of mono-domain LCEs is demonstrated with control over both the location along the fiber axis, as

30 and bottom-up approach provides independent control over both the plasmonic gap and photonic lattice

31 ndensation reactions-to exercise independent control over both the shape forming process (3D printing

32 We expect that targeted control over calcium dynamics and water transport will h

33 ped that set up a feedback between hydraulic controls over carbon allocation and the role of root gro

34 Chemogenetics enables noninvasive chemical control over cell populations in behaving animals.

35 tal cues demonstrate enhanced spatiotemporal control over cell targeting and therapeutic release.

36 s that imparts water solubility and provides control over cellular permeability while retaining their

37 at the enhanced creep resistance achieved by control over chain topology in block vitrimers can be us

38 tetrazine activator has enabled exceptional control over chemical and biological processes.

39 The impeccable control over chemo-, site-, and stereoselectivity possib

40 We also demonstrate subwavelength control over coherent spin rotations by using an optical

41 nitride ultrathin films by harnessing strain-control over competing phases can be used for utilizing

42 ry activity in the BLA exerts bi-directional control over conditioned freezing behavior in an experie

43 mediation offers unparalleled spatiotemporal control over controlled radical polymerizations (CRP).

44 cobalamin binding site and exerts exquisite control over coordination geometry, reactivity, and solv

45 guide RNA allows for tunable and reversible control over CRISPR-Cas9 activity.

46 suggest a possible new model for biological control over crystal growth during amelogenesis, and hin

47 ing seemingly divergent results and enabling control over cyanine photoreactivity is however missing.

48 polar-solvent-soluble species, and increased control over cyclization rate.

49 alized approach: research groups retain full control over data use and their way of data management,

50 but has proven difficult due to the lack of control over defined topological transformation of self-

51 linical relevance of EA by allowing wireless control over device operation (capability to remotely tu

52 ur CDP system can be used to confer temporal control over diverse intracellular processes.

53 disorders as a consequence of its modulatory control over diverse neuronal networks required for memo

54 otoswitches and scaffolds to achieve optical control over diverse protein classes.

55 In particular, superior control over DNA origami structures could be beneficial

56 ed alpha6beta2-containing nicotinic receptor control over dopamine release.

57 However, to date, accurate control over dopant concentration and scalability of the

58 of traditional phage therapy while enabling control over dosing.

59 Achieving spatiotemporal control over droplet condensation and disassembly remain

60 With this improved control over droplet packing, we can 3D-print functional

61 and agrochemical industries requires precise control over each distinct stereocenter, a feat that can

62 gy than is expended may reflect a failure of control over eating behaviour in obesity.

63 sembly strategies allow impressive levels of control over either shape or composition, but not both,

64 Control over emotional action tendencies is essential fo

65 effective phase-transfer capability but low control over enantioselectivity for fluoride delivery.

66 ing of DNA around nucleosomes exerts dynamic control over eukaryotic gene expression either by granti

67 Design-specific control over excited-state dynamics is necessary for any

68 the system was further improved for precise control over experimental temperature and muscle single

69 Intentional control over external objects is informed by our sensory

70 These data provide new insight into NAc control over feeding in mice, and contribute to an emerg

71 Eyes with stricter IOP control over follow-up visits had a smaller chance of ex

72 chicks become "favorites" when parents begin control over food distribution, implicating a role for t

73 el loads and to establish a higher degree of control over future fire risk, while restoring fire pron

74 tform for implementing inducible and logical control over gene expression in mammalian cells, which h

75 tary genetic architectures to confer logical control over gene expression.

76 By showing such dramatic control over habits by DLS activity in a phasic time win

77 Greater control over how immune signals are presented, delivered

78 evidence for incorporating FPl in models of control over human action tendencies elicited by emotion

79 red to women more readily display and pursue control over human resources or capital.

80 t beneficial to allow the nervous system any control over immunity?

81 Greater control over incorrectly labelled poultry meat and incre

82 ated nanoparticle crystallization, allow for control over individual Wulff-shaped crystal growth, loc

83 We show a high degree of control over interactions between the spin qubit and the

84 pediatric OCD may contribute to the impaired control over intrusive thoughts early in the illness.

85 gement system indicating that it has greater control over its endophytic mycobiome, which could poten

86 To enable discrete control over its function, we have developed a broadly a

87 nly the construction of new matter, but also control over its inherently dynamic behaviour.

88 there have been efforts to achieve temporal control over its nuclease activity.

89 ently, metabolic factors impose a very tight control over kisspeptin synthesis and release.

90 tain a more nuanced understanding of trophic control over large scales, we explored long-term time-se

91 distance, demonstrating sub-wavelength field control over levitating polystyrene beads into various c

92 gains prominence and renders a more flexible control over light propagation when compared to prisms.

93 ressive complex I exerted a further layer of control over LMP expression, suggesting a second mechani

94 Despite its importance, E-field control over magnetization (M) with significant magnitud

95 e all important variables in providing tight control over many biological paradigms.

96 The ENS exerts critical local reflex control over many essential gut functions; including per

97 sults indicate that PKA maintains repressive control over MAPK signaling as well as a negative feedba

98 g in perovskite oxides provides for dramatic control over material structure, phase, and properties,

99 Gaining control over mechanisms of speciation would enable new s

100 tivity measures that indicated a hippocampal control over memory acquisition and retrieval at theta a

101 hese reagents in living cells allows optical control over microtubule network integrity and dynamics,

102 major descending extrapyramidal pathway for control over midbrain and brainstem premotor structures.

103 cted mechanism for biomineralization protein control over mineral microstructure, where unstructured

104 of the transcriptional mechanisms of nuclear control over mitochondria, and may help to understand th

105 f the prefrontal cortex in exerting top-down control over mnemonic activity in the hippocampus and ot

106 that respond sensitively to pH could enhance control over molecular devices, improving their diagnost

107 ologies necessitating the need for intrinsic control over molecular motor function.

108 Precise control over molecular movement is of fundamental and pr

109 Spatial control over molecular movement is typically limited bec

110 lenge in this field is obtaining independent control over molecular structure and hierarchical struct

111 lid-state defects will require high-fidelity control over multiple defects with nanoscale separations

112 robust, even under extreme heat stress, and control over nanocomposite dimensions is maintained on s

113 silk fibroin molecular weight and pH allows control over nanofibrils morphologies and mechanical pro

114 s into functional materials requires precise control over nanoparticle interactions in solution that

115 l management technology through the rational control over nanostructures and interfaces.

116 ulation to prevent leakiness and allow tight control over neoantigen expression.

117 Pacemaker neurons exert control over neuronal circuit function by their intrinsi

118 minescence intensification require stringent controls over numerous factors such as composition and s

119 The ability to exert flexible instrumental control over one's environment is a defining feature of

120 frontal cortex, thereby enhancing inhibitory control over opioid dose escalation behaviors.

121 ance manifested by stringent gene regulatory control over ORE1 In addition, the decision to die is su

122 ur understanding of the mechanisms of neural control over organ function and (2) advances in technolo

123 More robust control over organelle motility will aid in dissecting s

124 i.e. the (conscious) sense of authorship and control over our actions.

125 Here, we show that control over particle deposition can be achieved through

126 However, understanding of and control over planar nanowire growth are still limited.

127 Gaining control over polymer self-assembly via molecular design

128 Control over polymorph formation in the crystallization

129 type for a general approach to exert precise control over pore diameter in physisorbents.

130 n of Nkx3.1 levels alone can exert long-term control over premalignant changes and susceptibility to

131 ellness and patient experience, less surgeon control over procedures, and difficulty in scheduling ca

132 vide physicochemical pathways toward greater control over properties of synthetic catechol-based poly

133 ems offer unprecedented temporal and spatial control over protein function.

134 degrader to achieve exquisite spatiotemporal control over protein stability in cells has attracted th

135 pocket that explain the system's remarkable control over rate- and enantioselection-determining even

136 at VP(Gad1) neurons contribute to contextual control over relapse (renewal), but not to relapse durin

137 ther, our findings suggest that host spatial control over resident microbiota plays a broader role in

138 es, while simultaneously jeopardizing immune control over residual malignant cells.

139 rons (dMSNs and iMSNs) can have oppositional control over reward-seeking and associative learning and

140 Here we report two modes of control over Rho1 and myosin II (MyoII) activation in th

141 nt regulatory proteins have evolved to exert control over RNA-binding ANTAR domains.

142 Fluid-rock interactions exert key control over rock rheology and strain localization.

143 age, sex, education, shift work experience, control over scheduling of shifts at baseline (where app

144 son to traditional scheduling, the perceived control over scheduling of shifts increased (OR 3.24, 95

145 proportion of long work shifts and perceived control over scheduling of shifts increased more among e

146 eatures of Rieske oxygenases responsible for control over selectivity is essential to enable the deve

147 Herein, independent control over shape and composition is achieved by chemic

148 nize functional materials, where independent control over shape and composition is essential.

149 nt enzymes that maintain stringent geometric control over shape and orientation of the template and i

150 ne bridges of different lengths to gain full control over shuttling electrons and holes between C(60)

151 This mechanism exerts spatiotemporal control over SIRT1 functions by constituting a previousl

152 Control over size and shape is still in its infancy, and

153 Thus, PTMs may exert conformational control over small GTPases and may add another previousl

154 This work highlights how dynamic control over solid-state host-guest molecular motion may

155 acoustic phased array enables unprecedented control over sound waves in a variety of applications ra

156 Achieving temporally precise, noninvasive control over specific neural cell types in the deep brai

157 chable metabolic substrates to exert optical control over sphingolipid production in cells.

158 Control over spontaneous emission rate is important for

159 eveloped a class of stimuli that grant tight control over statistical relations among object velociti

160 nting the OEEF off the reaction axis enables control over stereoselectivity, enantioselectivity, and

161 tex (dmPFC) are positioned to exert top-down control over subcortical regions, such as the nucleus ac

162 sults offer promising prospects for exerting control over such a nonclassical pathway to crystallizat

163 rphology have to be developed for sufficient control over supramolecular copolymerizations.

164 effective immunotherapy, and a high level of control over surface functionalization is essential for

165 mprised participants who showed similar poor control over symptoms with the distribution of the indiv

166 ies, leading to unpredictable limitations in control over system properties (e.g., rapid hydrolysis o

167 uring of T cell-based therapies, and precise control over T cell activation is important in the devel

168 ck of truly tumor-specific antigens and poor control over T cell activity.

169 stimulation duration and provide promise of control over T cell profiles in future products.

170 introduce a strategy that provides complete control over targeted sample multiplexing experiments, t

171 Control over the 2DP layers reveals enhancement of the 2

172 ous mechanisms that enable cells to maintain control over the activity of cytosolic nucleic acid sens

173 ate the visible light mediated bidirectional control over the activity of zinc-dependent carbonic anh

174 electrochemical oxidation provides on-demand control over the adhesive, which will potentially add an

175 his toolbox provided by OEEFs is microscopic control over the alignment between the molecule and the

176 rmomechanical loading, provide deterministic control over the assembly and reconfiguration processes,

177 icating that photolysis exerts a substantial control over the atmospheric SOA lifetime, with a likely

178 chemical CO(2) reduction reaction (CO(2)RR), control over the binding of intermediates is key for tun

179 he ability to produce constructs with a high control over the bulk geometry and internal architecture

180 lyst assembly offers an unrivalled degree of control over the catalytic interface, and thereby the re

181 uses have evolved complex strategies to gain control over the cell cycle.

182 Factors capable of exerting control over the chemo-, regio-, and stereoselectivities

183 that allow for precise spatial and temporal control over the CO release.

184 , and temporal logic, allowing recording and control over the combination, order, and timing of molec

185 This approach offers unprecedented control over the composition and stability of the protei

186 template/blocker scaffolds, the hierarchical control over the composition of the P(1)-guided emergenc

187 cultures are rarely used in practice because control over the constituent species of an assembled com

188 reduce the kinetic reaction rates for better control over the crystallization process.

189 lated could be rapidly reconfigured to exert control over the cursor in a sensory-feedback-dependent

190 Finally, in-air photopolymerization enables control over the curvature of printed droplets, as highl

191 By adjusting the tile geometry to gain control over the curvature, torsion and the number of he

192 Optoelectronic tuning enables decoupled control over the cytotoxicity and phototoxicity of fluor

193 Ultimately, these studies enable control over the deformation behavior of future DNA-asse

194 ted cellulose and chitin analogues with full control over the degree and pattern of substitution.

195 ue cluster rings form and could lead to full control over the designed assembly of gigantic Mo-blue r

196 This affords an unprecedented level of control over the device properties.

197 y effective vaccines will provide sufficient control over the disease and revert societal live back t

198 PrL-PVT pathway, therefore, exerts top-down control over the dopamine-dependent process of incentive

199 For reversible EP, precise control over the electric field is critical to regulate

200 To date, effective control over the electrochemical reduction of CO(2) to m

201 Precise control over the energies of these sites is key to achie

202 This approach realizes precise control over the energy of the subbands and their unifor

203 ntext of home care, where nurses have little control over the environment and care processes in-betwe

204 Doping of semiconductors enables fine control over the excess charge carriers, and thus the ov

205 The control over the extent and timing of G protein signalin

206 led incubations, in order to achieve greater control over the external influences that cocoa beans ar

207 The precise control over the final architecture might be challenging

208 ng the surface energies, which then leads to control over the final particle deposit.

209 -induced topological transformation provides control over the formation of hierarchical micro-/mesopo

210 Synthetic control over the framework interpenetration could serve

211 Precise control over the frequency and position of the trap lase

212 use light offers unparalleled spatiotemporal control over the generation of the reactive intermediate

213 eptor (LihMET), can be used to exert optical control over the insulin or MET signaling pathways.

214 areful quantum design of the gain medium and control over the intermode beat synchronization enable t

215 en able to achieve an unprecedented level of control over the length of low dispersity fiber-like mic

216 ning motifs, and facilitate a high degree of control over the linker sequences between these motifs.

217 The targeted design of flexible MOFs demands control over the macroscopic thermodynamics as determine

218 nd mitochondria to establish transcriptional control over the metabolic processes in both organelles.

219 ers with individual catch quota, but limited control over the mix of species caught, depend on trade

220 Statistical control over the monomer distribution in an RHP leads to

221 The exertion of external control over the motile structures powered by biomolecul

222 ecutive function thought to involve top-down control over the motor system.

223 ementation is currently limited by a lack of control over the multi-electron catalysis of water oxida

224 This method provides precise control over the MWD shape which, in turn, offers a syst

225 Gaining spatial control over the nanoparticle incorporation is useful, f

226 Electrochemical control over the nanoparticle synthesis of the MOF, HKUS

227 s in complex networks with full and accurate control over the network connectivity, coupling strength

228 , but in noisy environments and with limited control over the network parameters which govern the net

229 tional, translational, and posttranslational control over the nighttime O(2) consumption rate (R(N))

230 understand which neurons may exert top-down control over the NTS, here we provide a brain-wide map o

231 with desirable properties relies on precise control over the nucleation and growth kinetics, which i

232 ack the tunability necessary for independent control over the oxygen flux (volume per unit time) and

233 In addition, the approach allows exquisite control over the patterned substrate/crystal lattice mis

234 ptide micelles and fibers demonstrate unique control over the photophysical properties of the bound,

235 and propagation steps enable spatiotemporal control over the polymerization.

236 chain oligonucleotide rotaxanes with precise control over the position of the macrocycle.

237 f reaction conditions, better spatiotemporal control over the process, and ability to conduct field-b

238 This strategy provides precise control over the properties of both the hierarchical sup

239 e of CQD optoelectronic devices require fine control over the properties of each layer in the device

240 Control over the propulsion direction and switchability

241 Control over the quantization of electrons in quantum we

242 vent-soluble structures as well as increased control over the rate of cyclization.

243 lin binding establishes a secondary point of control over the rate of filament elongation mediated by

244 This furnishes an increased control over the reaction which is crucial for applicati

245 anophotonic lattices that allow simultaneous control over the reflection (through the 3D photonic ban

246 /off switch to provide tight spatio-temporal control over the release of biological effectors through

247 le non-invasive spatiotemporal photochemical control over the release of species of interest.

248 The synthetic method provides control over the site of amine functionalization and the

249 Achieving control over the size distribution of metal-organic-fram

250 Precise control over the size, shape, composition, structure, an

251 framework can be designed to afford precise control over the size, structure and spatial arrangement

252 The secondary outcome was control over the SMA assessed in neuroimaging scans, in

253 no effects were found in terms of change in control over the SMA, the hypothesized mechanism of acti

254 ences in changes on the secondary measure of control over the SMA.

255 Synthetic control over the solid state properties of organic optoe

256 eractions and thereby gain an extra level of control over the solid state properties of organic optoe

257 (LED) arena, which allowed for quantitative control over the stimuli, and a control theoretic model

258 Clearly, the two limbs of autonomic control over the stomach are influenced by distinct cort

259 enzymes and biosensors from scratch, precise control over the structure of small-molecule binding sit

260 PFo in behavioral flexibility by generating control over the switching of strategies.

261 3))(2) and elemental S resulted in synthetic control over the ternary phase.

262 Control over the thermal expansion tensor achieved in th

263 ategy that decouples and enables independent control over the thermodynamics and kinetics of aptamer

264 chitectures, however, requires a more subtle control over the thermodynamics and kinetics of reaction

265 xcited-state transformation, and demonstrate control over the transition dynamics by tailoring the bi

266 can function alone or in concert to achieve control over the translation of transcripts as soon as t

267 rees of freedom, in this work we demonstrate control over the transverse spatial structure of light a

268 eactivity compared to 3-pentadienyl cations, control over the ultimate position of the alkene, the po

269 The application of high pressure allows control over the unit cell and interatomic spacing of ma

270 nd nanoscale building blocks, which limits a control over the valence and specific locations of react

271 ires creation of a vortex but also efficient control over the vortex after its creation.

272 tal-organic frameworks offers a new level of control over their adsorption behavior.

273 o complex and prescribed structures requires control over their binding properties.

274 fessionals may help patients gain a sense of control over their condition and reduce the worry and an

275 Participants had increased control over their emotional action tendencies, dependin

276 l microwaveguides in order to attain spatial control over their light output.

277 wded molecular environments, which may allow control over their light-induced conversion.

278 enedicarboxylate (MnBDC) MOFs with a precise control over their morphology (bulk vs. layered) is pres

279 hniques now exist for synthesizing them with control over their nanoscale features (e.g., particle co

280 ptical waveguides in order to attain spatial control over their output in two and three dimensions in

281 aterials have limited the scope of synthetic control over their physical properties.

282 ides requires downsizing and precise spatial control over their shape and size at the microscale, how

283 This provides the opportunity to gain control over their size, morphology, and chemical proper

284 efin conjugate can be used to exert external control over thermotropic phase behavior and provide acc

285 c gold nanostars and demonstrate all-optical control over these currents.

286 s have been shown to provide a high level of control over these interactions, but few examples exist

287 We demonstrate the magneto-electrical control over these selection rules by activating or supp

288 cted behavioural systems, and when executive control over this maladaptive behaviour is diminished.

289 4.10 [CI, 3.68 to 4.55]) and with better BP control over time.

290 hree-dimensional microtumor model with tight control over tumor size, we recapitulated the tumor size

291 Ptgs2-expressing fibroblasts exert paracrine control over tumour-initiating stem cells via the drugga

292 magnesium and titanium rely critically on a control over twinning that remains elusive to date and i

293 rk establishes a general design principle to control over ultra-large optical asymmetry on a wider sc

294 We achieve fine control over ultracold fermions confined to two-dimensio

295 rts and introduces the potential of topology-control over viscoelastic flow.

296 Active voicing - voluntary control over vocal fold oscillation - is essential for s

297 comprehensive framework for spatial-temporal control over volumetric energy distribution, demonstrati

298 s better than the other, participants had no control over which they were in, and to maximize rewards

299 "smart reagents", which enable in principle control over wide-ranging aspects of reactivity and stru

300 nic azithromycin users compared with matched controls over years of use and consider combined azithro