ライフサイエンスコーパス: flexible

1 ling that this region is both structured and flexible.

2 The pipeline is scalable, modular and flexible.

3 that Bvht lncRNA has a well-defined, albeit flexible 3-D structure that is remodeled upon CNBP bindi

4 The more flexible a subject, the more they replayed trajectories

5 rivative revealed both DNA ends to be highly flexible, a feature important for CENP-A mitotic functio

6 thase homology (CSH) module, flanked by four flexible acetyl-CoA synthetase homology (ASH) domains; C

7 ecision-process parameters that undergo such flexible adaptation has proven to be difficult to establ

8 membrane with advantages of a robust design, flexible adaptation to existing equipment, small volume,

9 internal and external cues is essential for flexible, adaptive behavior.

10 capsid, the radiating protruding domains are flexible, adopting distinct states both independently an

11 anisms that enable sensory neurons to remain flexible and adapt to a particular internal state remain

12 The CA hexamers are intrinsically curved, flexible and asymmetric, revealing the capsomere and not

13 s that the RSV G central conserved domain is flexible and can adopt multiple conformations in the reg

14 Further, GO is flexible and can be easily adapted to induce expression

15 CNA-interaction motifs embedded in a largely flexible and disordered region of the protein underlie t

16 y genome of the megaplasmid family is highly flexible and diverse.

17 Given the flexible and efficient nature of DISC, we anticipate it

18 A flexible and efficient R package is needed for analyzing

19 d and model free, that respectively generate flexible and habitual behaviors.

20 ces in printing materials and techniques for flexible and hybrid electronics in the domain of connect

21 e of plotting methods and enables expedient, flexible and interactive visualization of complex datase

22 notion that brain-behavior relationships are flexible and may involve interactions among distant regi

23 a python package and SnakeMake pipeline for flexible and parallelized clustering evaluation and sele

24 l ordered whereas the other ('right') end is flexible and partly detached from the histone core, sugg

25 nd underscores the need for DSD models to be flexible and patient-centered if they are to be effectiv

26 vising cryo-EM methodologies for exceedingly flexible and pleomorphic assemblies, we have determined

27 ates the promise of the proposed method as a flexible and powerful framework for exploring imaging ge

28 In this article, we propose a flexible and powerful framework for mining regional imag

29 It uses flexible and printed electronics where flexibility and s

30 e-cell higher-order testing-which provides a flexible and statistically robust framework for identify

31 Nanomaterial-enabled flexible and stretchable electronics have seen tremendou

32 , these devices also need to be mechanically flexible and stretchable, thus posing a significant chal

33 neoepiscope is performant, flexible and supports several major histocompatibility c

34 This unique polypeptide appears to be highly flexible and turned out to be essential for proper funct

35 Our methods are flexible and we demonstrate this by applying them to rec

36 ong term, could be incorporated into a fully flexible and wearable sensing platform.

37 n alternative choice of materials for light, flexible, and environmentally benign devices, primarily

38 Electrochemical sensing is inexpensive and flexible, and has demonstrated utility in point-of-care

39 tical GREEnness calculator, a comprehensive, flexible, and straightforward assessment approach that p

40 We compare fabrication techniques for flexible antennas and demonstrate that screen and stenci

41 We describe a flexible approach to data integration using point proces

42 lised interpretation of its predictions; its flexible architecture enables it to incorporate multiple

43 RICOPILI has a flexible architecture to allow for ongoing development a

44 rd fewer 80-hour work week violations in the flexible arm (19.8%-17.0%, P = 0.06), and increased sati

45 ling cognitive flexibility and building more flexible artificial intelligence systems.

46 The flexible ArtificialIris seems to be a safe and effective

47 bound Zn(2+) also made the CDR3 loop highly flexible, as observed in all-atom simulations.

48 However, how flexible behavior changes developmentally in ASD remains

49 at dominant learning mechanisms underpinning flexible behavior differed across developmental stages a

50 ered across developmental stages and reduced flexible behavior in ASD was driven by less optimal lear

51 findings provide novel insights into reduced flexible behavior in relation to clinical symptoms in AS

52 e used a developmental approach and examined flexible behavior on a probabilistic reversal learning t

53 For effective, flexible behavior, the brain must represent both levels.

54 ding to increased spine density and improved flexible behavior.

55 irected navigational planning and efficient, flexible behavior.

56 advancements have incorporated thinner, more flexible biological tissues to streamline safer deployme

57 Herein, we report a flexible, biologically degradable and wirelessly operate

58 e development of surface acoustic wave (SAW) flexible biosensors, which are highly reproducible, reli

59 on-rendering attention a key mechanism for a flexible body representation for action.

60 a suggest that the G-patch motif acts like a flexible brace between dynamic portions of DHX15 that re

61 ural substrates for developing a cognitively flexible brain during early infancy.

62 As a result, flexible bronchoscopy is now able to provide a new and e

63 Flexible bronchoscopy revealed vocal cord paralysis in p

64 This protocol is flexible but generally requires 8-9 weeks for completion

65 Overall, immune parameters were highly flexible, but results suggest that other environmental f

66 mbled upon a finding that suggested that the flexible C-tail region of these factors autoregulates th

67 We show that the flexible C-terminal tails of Mtf1 and TFB2M play a cruci

68 hese imine linkers to amines yields the more flexible cage Co-rPB-1(6).

69 d state are lower for networks incorporating flexible chains; the network topology freezing temperatu

70 key steps of experimental protocols, with a flexible choice of methods.

71 hin film transistors technology, transparent flexible circuits and optoelectronic applications in gen

72 ory stabilization offers a dynamic, fast and flexible compensatory mechanism to balance otherwise uns

73 ndle ANalytics (BUAN) is a fast, robust, and flexible computational framework for real-world tractome

74 ns, this oxidized form adopts a J-elongated, flexible conformation, not circular or twisted, in which

75 Taf12 and Spt20 form flexible connections to the Tra1 module, whereas Sgf73 t

76 le connectivity schema likely contributes to flexible control of threat responses in unpredictable en

77 h antiferromagnetic skyrmions may allow more flexible control than conventional ferromagnetic skyrmio

78 The FPN exhibited properties of a flexible coordinator (orchestrating task changes), while

79 Consistent with a flexible "coordinator" mechanism, FPN connections were v

80 fect should enable efficient, large-area and flexible coverage of a heat source.

81 s downloadable tables and figures supporting flexible data analysis and interpretation.

82 oimaging studies suggest that disruptions in flexible decision-making functions in substance-dependen

83 or based, providing plasticity essential for flexible decision-making.

84 The flexible definition of the LDT collective variable allow

85 The approach taken allows flexible design of new biosensors based on inherently st

86 Here, a flexible, designable micro-supercapacitor can be fabrica

87 mbining the low cost of PMMA manufacture and flexible designs of TADF molecules, pure organic, large-

88 The flexible detectors exhibit efficient X-ray-to-electric c

89 A flexible device with an electrical conductivity sensor,

90 Flexible devices are garnering substantial interest owin

91 functional soft materials for future use in flexible devices or soft-robotic machines.

92 Flexible dielectrics operable under simultaneous electri

93 J cm(-3) far outperforming the best reported flexible dielectrics.

94 lein optimized for calcium sensing in highly flexible, disordered protein segments are identified.

95 y separate tracks and show spatio-temporally flexible division patterns.

96 NA flexibility, but rapidly dissociates from flexible DNA when RAD51 self-association is perturbed.

97 pf2 and Rrs1, which initially docks onto the flexible domain V of rRNA at earlier stages of assembly.

98 g the further development of islatravir as a flexible-dose treatment for individuals with HIV-1 infec

99 l, the development of a novel, low-cost, and flexible drift tube (DT) along with an associated ion mo

100 NW-templated 3D fuzzy graphene (NT-3DFG) is flexible due to its broadband absorption and does not ge

101 , P = 0.06), and increased satisfaction with flexible duty-hours (91.9%-94.3%, P < 0.05).

102 ain, neural sequences represent an ideal and flexible dynamical regime for enabling downstream areas

103 fillers have been developed as mechanically flexible, easily processable electromagnetic interferenc

104 ampuses, there is a pressing need for a more flexible educational experience.

105 Recent key innovations in flexible electrochemical bioelectronics from electrochem

106 s bioanalytical technologies are employed in flexible electrochemical bioelectronics, including ion-s

107 (Bio-PET) substrates for the development of flexible electrochemical sensors for the detection of Pa

108 sing for integrated RF components in various flexible electronic devices.

109 l deformation, impeding their application in flexible electronic devices.

110 Nonetheless, flexible electronics are not as efficient as silicon ICs

111 ever, examples of semiconductive MOFs within flexible electronics have not been reported.

112 verse applications including energy storage, flexible electronics, and bioelectronics.

113 ctuators, energy harvesting, stretchable and flexible electronics, and energy storage, among others.

114 photovoltaics, detectors, infrared imaging, flexible electronics, and other applications.

115 igh electrical conductivity are critical for flexible electronics, such as electromagnetic interferen

116 tions such as magnetic recording devices and flexible electronics.

117 distributions would pave a way toward novel flexible electronics.

118 factor suggest mechanistic convergence of a flexible element in the transcription initiation factor

119 no acid substitutions in the trigger loop, a flexible element of the active site involved in nucleoti

120 that reaches the end of the bridge helix, a flexible element of the Pol II active site.

121 , we have developed novel, to our knowledge, flexible ELISA-based assays for specific detection of hu

122 inding simulations reveal that ArkA enters a flexible encounter complex before forming the fully enga

123 hours of extubation, all patients received a flexible endoscopic evaluation of swallowing examination

124 ng to the requirements of different types of flexible energy devices.

125 id-state organic ionic conductors (SOICs) in flexible energy generation and storage devices are discu

126 efficient SOICs and their incorporation into flexible energy generation and storage devices, and addr

127 These observations illustrate how approaches flexible enough to detect robust patterns with little to

128 The flexible escape behavior exhibited by C. elegans in resp

129 ns and introduces advanced functions for the flexible extraction of annotations.

130 od starts from thermally drawing SnSe into a flexible fiber-like substrate, which is polycrystalline,

131 Type IV pili are flexible filaments on the surface of bacteria, consistin

132 e-coated polyurethane nanopillar arrays on a flexible film and conductive hydrogel micropatterns incl

133 3D materials to meet the growing demands for flexible, foldable, biocompatible, biodegradable, dispos

134 Such systems can be highly flexible for adapting environmental demands.

135 o dynamically load actin monomers onto their flexible Formin Homology 1 (FH1) domains.

136 region (without any Raman enhancer), and the flexible functionalization of this material holds great

137 The flexible fusion method of sum of ranking differences (SR

138 maintain diversity by possession of numerous flexible gene modules, where homologous genes present in

139 However the efficient and flexible generation of such beams from a compact laser s

140 d a large diversity, a high abundance, and a flexible genomic evolution for these viruses.

141 The rapid development of flexible genomic loci imaging approaches can address fun

142 ir were included in the AdaPT analysis using flexible gradient boosted trees.

143 ), whereas the rest of this domain is highly flexible (>40% deuteron incorporation), and its flexibil

144 exon MCP subunits and possesses a C-terminal flexible half emanating from the inner rim of the upper

145 ed Glt(Ph) gain-of-function mutations in the flexible helical hairpin domain HP2 and applied linear f

146 integrated in smart devices and wearables as flexible, high pixel density organic light emitting diod

147 een neighboring protofilaments and acts as a flexible hinge between them.

148 TAT1), structural maintenance of chromosomes flexible hinge domain containing 1 (SMCHD1), or promyelo

149 Structural maintenance of chromosomes flexible hinge domain-containing protein 1 (SMCHD1) has

150 Here, we found that the flexible hinge region of RSV L protein is tolerant to am

151 hyltransferase region, which are linked by a flexible hinge region.

152 The conformationally flexible host molecule, ABTPA, adapts its molecular conf

153 Here, we introduce a soft, wearable flexible hybrid electronics (WFHE) with integrated flexi

154 We generated semiautomated and flexible ImageJ2/Fiji pipelines to quantify kinetochore

155 Simulation is flexible in structure and resources.

156 The FIP200NTD is flexible in the absence of ATG13, but in its presence ad

157 rmed a Bayesian prevalence model, in which a flexible incidence-to-prevalence relationship was learne

158 Flexible initiation or suppression of actions to avoid a

159 The ability to exert flexible instrumental control over one's environment is

160 ed reactions can hinder the ability to learn flexible "instrumental" actions in pursuit of a goal.

161 rr1 complex displays a multimodal network of flexible interactions, including binding of the N domain

162 structure is the massive, mucin-based, soft, flexible laminated layer (LL), which protects the larval

163 harge via varying ex situ treatment units in flexible landscape environments.

164 e data suggest that the Pampa de Mocan was a flexible landscape, capable of taking advantage of El Ni

165 face of the human kinetochore behaves like a flexible "lawn" despite being nucleated by repeating bio

166 Many docking software packages can simulate flexible ligand docking, and among them, Autodock is wid

167 arm is often referred to as one of the most flexible limbs in nature, yet this assumption requires d

168 ctivity has been previously shown to support flexible linear decoding for complex behavioral tasks.

169 temperature decreases with increasing MW of flexible linear segments but increases with increasing M

170 KWDipK) for immunotherapy by exploiting (i) "flexible" linear polymer backbone to facilitate interact

171 and dehydrogenase domains, consistent with a flexible linker connecting the two domains.

172 Disordered flexible linkers (DFLs) are abundant and functionally im

173 Our results highlight the importance of flexible linkers in regulating multidomain chromatin bin

174 pecific topographic characteristic, a highly flexible lithium-sulfur (Li-S) full cell with rGO-guided

175 e level of helix orientations and relatively flexible loop conformations that connect the helices.

176 own to interact with CNBP, contains a highly flexible loop surrounded by more ordered helices.

177 Accordingly, NleD cleaved the flexible loops of JNK and p38 but not the rigid loop of

178 ient rigidity at the base of the tail with a flexible lumbar region.

179 avorable ADME properties into both rigid and flexible macrocyclic peptides, and that scaffold rigidit

180 Proteins are intrinsically flexible macromolecules that undergo internal motions wi

181 ter clusters in an accessible, efficient and flexible manner has remained difficult.

182 rinciples, alternative body fluids, advanced flexible materials, and novel platforms.

183 this approach is showcased by demonstrating flexible memristors with stable switching behaviors afte

184 e straightforward approaches for consistent, flexible metadata collection and linkage of related expe

185 nical control of the pore size aperture in a flexible metal-organic framework.

186 The use of this flexible method is promising in the investigation of pat

187 Here, we present ORF Capture-Seq (OCS), a flexible method that addresses both challenges for targe

188 ch could be suitable for designing low-cost, flexible microelectronic thermoelectric generators(11-13

189 Flexible microtube plasma (FmuTP) was selected as the io

190 Here, we report a flexible microwave integrated circuit strategy integrati

191 We report a family of flexible MOFs based on derivatized amino acid linkers.

192 w that amino acids 93-111 in SNAP25 act as a flexible molecular spacer that ensures efficient couplin

193 reveal that the limiting step for binding of flexible molecules to ice is not the alignment of the mo

194 liquid crystalline (LC) gels, which exhibit flexible morphological plasticity and mechanical program

195 e way for future study of both reflexive and flexible movements of this appendage.

196 The masking of the [4Fe-4S] cluster by the flexible N-terminal region and the associated inhibition

197 ormational changes leading to release of the flexible N-terminus from the docking interface.

198 le ferroelectric memories and ultrasensitive flexible nanosensor devices, and it may also be leverage

199 The thin and flexible nature of optical fibres often makes them the i

200 to delay block 3 folding, demonstrating the flexible nature of the assembly process.

201 vival in complex environments necessitates a flexible navigation system that incorporates memory of r

202 ories not as static entities, but instead as flexible network states that reactivate and evolve acros

203 ks that we have defined using a rigorous but flexible nomenclature.

204 Our study uncovers a flexible non-uniform fitness mechanism that enables grou

205 In addition, the flexible NP-system offers a broad range of further optio

206 lexible sensors is ~8.6% higher than the non-flexible one.

207 ototherapeutic effect, biocompatibility, and flexible operability in this system, a novel approach fo

208 deline for use of MXenes as TCEs in low-cost flexible optoelectronic devices.

209 In 2014, 117 programs were randomized to flexible or standard duty-hour policy.

210 plication that uses ring-shaped, large-area, flexible, organic photodiodes with silicon-level perform

211 the anterior-posterior specification GRN is flexible over time in the developing wing and 2) this fl

212 Expanded helicenes are large, structurally flexible pai-frameworks that can be viewed as building b

213 ion and mortality records was analyzed using flexible parametric survival models.

214 could be used to form a network of printed, flexible, passive, interactive sensor tags.

215 corporates a shielding layer, as part of the flexible PCB design, and represents the minimum dimensio

216 n the hydrophobic cavity of a water-soluble, flexible Pd(II)(6)L(4) coordination cage.

217 ted by eight stencil-printed electrodes on a flexible PET (polyethylene terephthalate) substrate is p

218 ge for combination treatment strategies with flexible pharmacokinetic profiles and multidrug interact

219 s direct mask-less 3D printed strain gauges, flexible piezoelectric energy harvester for powering the

220 ignificant for the substrata possessing more flexible pillars.

221 pular single-cell analysis algorithms into a flexible pipeline.

222 ell as controllable loading properties, is a flexible platform that can be extended to a wide range o

223 or, and a glucose sensor was fabricated on a flexible polyimide substrate with thickness less than 20

224 the factors that control the IRI activity of flexible polymers and assess the molecular characteristi

225 In devices integrated on flexible polymers, enhanced room-temperature dielectric

226 mobility based only on transient binding to flexible polymers.

227 o the four corannulene units, the relatively flexible porphyrin tether actively participates in the r

228 s, such as Asp211, in other Dio types in the flexible portion of the loop sequence suggests a mechani

229 These products serve as flexible precursors for a variety of highly substituted

230 Moreover, we present a novel flexible prediction method to calculate initial mutant a

231 3-year overall survival, analysed by use of flexible proportional mortality models, and we predicted

232 atile, as it (i) enlists click chemistry for flexible protein functionalization; (ii) in principle ca

233 resembled the evolutionary sequence space of flexible proteins, particularly when confined to predict

234 linked to the object being accessed, and the flexible recruitment of semantic stores linked to the co

235 the nucleotide-free form where a conserved, flexible region in the N-terminus masks the [4Fe-4S] clu

236 By repeatedly reconstructing the core and flexible regions of phage genomes from different metagen

237 , was approximated using multiple balls with flexible relative positions so that this structure could

238 ory-selective areas may enable a dynamic and flexible representation of complex visual scenes that ca

239 oviders), care protocols (e.g., specific yet flexible respiratory therapy-driven weaning protocols),

240 a misassembled NPET, including an aberrantly flexible ribosomal RNA helix 74, resulting in at least t

241 A flexible route to both symmetrical and unsymmetrical 1H,

242 circuit determinants of engrams that permit flexible routing of information to intra- and extrahippo

243 The highly flexible S-protein, with its mobile domains, presents a

244 o provide an introduction to AI-ML through a flexible schedule of educational, experiential, and rese

245 We characterize two versions of flexible, screen printed folded dipoles and a meandered

246 Flexible semi-nonparametric regression models were used

247 enide nanocrystals (NCs) are compositionally-flexible semiconductors that do not contain lead (Pb) or

248 le hybrid electronics (WFHE) with integrated flexible sensors and circuits in an ultrathin, low-modul

249 Further, the sensitivity of flexible sensors is ~8.6% higher than the non-flexible o

250 nd-line utility which interprets and applies flexible set theoretical expressions to sets of sequence

251 ving species to transition between rigid and flexible shapes represents one of their survival mechani

252 We have designed a flexible, simple to setup viewer that is easily adaptabl

253 nt a tutorial demonstrating how to conduct a flexible, simulation-based power analysis.

254 To identify the molecular basis for the flexible site-selectivity, stereoselectivity, and chemos

255 MutEnricher is a flexible software package for investigating somatic muta

256 the surface and with no need of the long and flexible spacer.

257 efficient variational inference and supports flexible sparsity constraints, allowing to jointly model

258 We designed a flexible spatial working memory task that required rats

259 Here, we use a flexible statistical framework for integrating multiple

260 We developed a flexible statistical model that uses patterns of aggrega

261 is slow-growing woody shrub is known for its flexible stems.

262 cell-configuration LIBs, in particular fully flexible/stretchable LIBs, are outlined in detail.

263 ical 14-3-3-binding site (site 1) within the flexible, structurally unresolved N-terminal APN region

264 beta-Ga(2)O(3) thin films is challenging on flexible substrates due to high-temperature growth requi

265 can be directly transferred onto any desired flexible substrates, and flexible transistors based on t

266 AVTs of 20% are achieved, both on rigid and flexible substrates.

267 A sweat-based flexible supercapacitor (SC) for self-powered smart text

268 g electrodes, and office-copy papers work as flexible supporting substrates.

269 ching and demonstrate how our data support a flexible surface model (FSM) for the coupling between pr

270 strating task changes), while CON acted as a flexible switcher (switching specific regions to other s

271 ctivity have been proposed, ranging from the flexible TF billboard model to the stringent enhanceosom

272 n fiber (CF) electrodes are thinner and more flexible than typical metal or silicon electrodes, but t

273 structure of IRBP, displaying an elongated, flexible three-dimensional architecture not seen among o

274 Sufficiently flexible time-varying birth-death models are still lacki

275 serious impact of introducing thinner, more flexible tissues into the cardiac system.

276 ptimization scheme developed here provides a flexible tool for disease management planners which tran

277 ture model and a neural network to provide a flexible tool for emulating a variety of models and outp

278 This flexible tool is now part of routine sequencing analysis

279 al and temporal patterns of gene expression, flexible tools are required.

280 mportant supplement of the database, several flexible tools have been developed to aid retrieval and

281 iveness of an evidence-based, multi-problem, flexible, transdiagnostic intervention, the Common Eleme

282 ed onto any desired flexible substrates, and flexible transistors based on the Dif-TES-ADT thin films

283 epresents the highest mobility value for the flexible transistors reported thus far.

284 Here, a lightweight, flexible, transparent, and conductive bilayer composite

285 rventions in multisite studies and describes flexible trial designs suitable for studying complex int

286 When combined with a flexible triamine and zinc bis(trifluoromethanesulfonyl)

287 licated and facilitates the insertion of the flexible tube into the posterior chamber.

288 fold produces rigid tubes in some phages but flexible tubes in others.

289 00 wt.%) condensed from generated vapors via flexible tuning of the carrier gas stream.

290 substrate, which is polycrystalline, highly flexible, ultralong, and mechanically stable.

291 COVA1-16 binds to a flexible up conformation of the RBD on the spike and rel

292 erstanding of open circulatory systems, have flexible valving systems between thorax and abdomen that

293 echanical properties, we hypothesized that a flexible vimentin network is required for fast amoeboid

294 Flexible visualization of chromatin interaction data as

295 ofabrication have enabled the development of flexible wearable electronics.

296 opportunities for designing next generation flexible/wearable devices.

297 We then develop a powerful and flexible weighted distance-based method with the pseudo-

298 eyespots on the same wing surface is highly flexible, whereas they are resistant to diverging in col

299 The guest diffusion occurs by opening of the flexible window formed by four pyrazines.

300 resents a critical step forward in realizing flexible wireless communication devices.