ライフサイエンスコーパス: exploration

1 rmation about the space of possible rewards (exploration).

2 ganism aggregated resources for rare variant exploration).

3 iomarkers to help manage CHB require further exploration.

4 with immediate implications for therapeutic exploration.

5 and head motion during tactile and olfactory exploration.

6 on mechanism of host-pathogen awaits further exploration.

7 tion bias by medication use warrants further exploration.

8 or query, reporting and individual structure exploration.

9 -harm for different motives requires further exploration.

10 s reaction is important and requires further exploration.

11 iversity conservation, agriculture and space exploration.

12 derlying the IBDV life cycle require further exploration.

13 and mobility in older adults merits further exploration.

14 effect of the variant that requires further exploration.

15 ve visual analytics approaches to assist the exploration.

16 ch make them really unique and merit further exploration.

17 sets and to develop hypotheses through data exploration.

18 s and Tfh cell interactions warrants further exploration.

19 comparable activation for tactile and visual exploration.

20 nknown, and this nascent subject is ripe for exploration.

21 ons to large deployable structures for space exploration.

22 reduce reliance on individual cognition and exploration.

23 - often suddenly - during novel environment exploration.

24 medicine, disease modeling, and mechanistic exploration.

25 edge and novel predictions deserving further exploration.

26 it is often assumed that neophobia inhibits exploration.

27 urinary tract, thus allowing thorough pelvic exploration.

28 n response to novel stimuli, thereby driving exploration.

29 ed as a benchmark to guide future nanocarbon explorations.

30 t system architecture (RSA) enhance the soil exploration ability of the plant and lead to an increase

31 ow the fixation point and accordingly visual exploration activated the cuneus, which processes retino

32 ed higher activation for tactile than visual exploration, although the stimulus was unseen and locati

33 Here, we describe Volumetric Tissue Exploration and Analysis (VTEA) image analysis software

34 Additional features enable fast exploration and analysis of BCs through two new interact

35 Dashboard is a software tool for interactive exploration and analysis of gene-expression datasets.

36 atasets within seconds, allowing interactive exploration and analysis of high throughput data.

37 Web platform that is designed to facilitate exploration and analysis of high-throughput data.

38 cribe ChloroKB, a Web application for visual exploration and analysis of the Arabidopsis (Arabidopsis

39 These mechanisms guide exploration and autonomous choice of goals, and integrat

40 We examined variation in exploration and cognitive performance on a problem-solvi

41 GOView tool allow interactive and efficient exploration and comparison of enrichment results.

42 Exploration and consolidation could happen for each neur

43 These tools are designed to encourage exploration and critical evaluation of the data behind t

44 dysbindin-1A resulted in heightened initial exploration and disruption in subsequent habituation to

45 nt leads these species to exhibit pronounced exploration and exploitation phases but differences betw

46 ood and adolescence allows a balance between exploration and exploitation, between wider and narrower

47 activated and reactivated for haptic object exploration and haptically guided grasping.

48 matter enables a wide variety of data exploration and manipulation steps, and is extensible to

49 than rearing background, best predicted both exploration and problem-solving success.

50 SFM4-3 should prove valuable for the further exploration and production of aptamers with properties o

51 alpha waves, and employ these statistics for exploration and quantification of neurofeedback induced

52 age analysis software designed for efficient exploration and quantitative analysis of large, complex

53 nes and facilitates more finely grained data exploration and querying of datasets.

54 It is also a time of increased exploration and risk-taking (e.g., drug use).

55 reated a portal called TumorMap to assist in exploration and statistical interrogation of high-dimens

56 filopodia in vivo to directly observe their exploration and to analyze the episodic Ca(2+) oscillati

57 ynthesis has been challenging, hampering the exploration and understanding of such systems.

58 d a user-friendly web server for data query, exploration and visualization.

59 a complete ophthalmic and electrophysiologic exploration and were re-evaluated annually for 5 years.

60 nge was achieved without significant asocial exploration and without any evidence for payoff-biased c

61 e a trade-off between gathering information (exploration) and gathering resources (exploitation).

62 l responses, including scototaxis, activity, exploration, and escape response were assessed after 7 a

63 ion missions (i.e., Venus &Jupiter planetary exploration, and heliophysics missions) and earth-based

64 giopancreatography, enabling preoperative VR exploration, and intraoperative augmented reality (AR) n

65 tuation power per unit volume for deep space exploration, and more broadly, suggest a mechanistic pat

66 nding how the cortex accomplishes inference, exploration, and prediction.

67 self-trapped localized motion, 2-D diffusive exploration, and super-diffusive persistent motion.

68 fluence the balance between exploitation and exploration, and that this influence was dependent on th

69 f small tumour biopsies is worthy of further exploration as a pre-clinical model to evaluate colorect

70 s involved in these pathways warrant further exploration as potential new therapeutic targets in MS.

71 ing locations have been targeted for martian exploration as potentially habitable environments and as

72 Bioinformatics explorations based on thousands of variants have been us

73 magmas are promising new targets for lithium exploration because lithium leached from the eruptive pr

74 ineation of sensorimotor circuits that guide exploration begins with an understanding of the pattern

75 'Exploration behaviour' was unrelated to both measures of

76 pecies, age and sex), the personality trait 'exploration behaviour', distance to territory and local

77 Patients underwent the following explorations: best-corrected distance and near visual ac

78 e is latent chemical space for collaborative exploration by the two groups.

79 in the UK-1 exploration contract area (eastern CCZ, 4,080 m water d

80 found evidence for a shift in the pattern of exploration, depending on neotic style.

81 ner in which animals solve this exploitation-exploration dilemma are still poorly understood.

82 n, driven by information seeking, and random exploration, driven by decision noise.

83 solve the explore-exploit dilemma: directed exploration, driven by information seeking, and random e

84 CC that regulate strategic disengagement and exploration during foraging.

85 iour of bolder birds placed them towards the exploration end of the trade-off, whereas shy birds show

86 urcing of minerals, trajectories for mineral exploration, environmental practices, and consumer aware

87 ed, demonstrating these are indicative of an exploration-exploitation (EE) strategy.

88 suggest new approaches for investigating the exploration-exploitation dilemma throughout the animal k

89 t whether personality predicts an individual exploration-exploitation strategy using wide ranging wan

90 nt across Pangea, suggesting early ecosystem exploration for Archosauriformes through nearshore envir

91 ardiovascular calcification, a novel area of exploration for the potential development of new therapi

92 l of innate fear governs the balance between exploration/foraging and avoidance of predators and is t

93 s with various areas of expertise, a unified exploration framework is required that is accessible, co

94 However, no explorations have considered whether the range of novel

95 ependent or -related tests, including Y-maze exploration, horizontal surface approach, bridge crossin

96 ons are implicated in both visual and haptic exploration; however, touch also recruits high-acuity ce

97 ted biomarkers to be recommended for further exploration in clinical context.

98 idative stress and steatosis, which deserves exploration in human trials.

99 Here, we present the first exploration in humans of the relationship between reprod

100 viduals with FXS, were supportive of further exploration in larger, well-controlled trials.

101 Our findings therefore require further exploration in longitudinal studies utilizing case revie

102 constitutes a valuable resource for further exploration in the context of different infection risks

103 oratory tests, and therefore warrant further exploration in the drive to end the global tuberculosis

104 nt mice had reduced voluntary locomotion and exploration, increased thigmotaxis, abnormal spectra of

105 We found that spatial-exploration induced brain activation mapped by Fos, a pr

106 it directed exploration while leaving random exploration intact.

107 This discovery opens new avenues of exploration into how the epitranscriptome helps orchestr

108 the CNS, there has been surprisingly little exploration into the differential vulnerability among ne

109 s work addresses the lack of a comprehensive exploration into the functional and prognostic relevance

110 on the epithelium, we conclude that further exploration into the mechanisms by which corticosteroids

111 In songbirds, vocal exploration is induced by LMAN, the output of a basal ga

112 e extent of hypoactivation following spatial exploration is inversely correlated with the spatial dis

113 y (fast or slow) determine the time at which exploration is likely to occur across a number of specie

114 it has not been demonstrated whether visual exploration is related to hippocampal activity in neurol

115 These results indicate that exploration is related to sudden disruptions in prefront

116 Further exploration led to the discovery of hominin material, no

117 agnetic fields, and radiation found in space exploration missions (i.e., Venus &Jupiter planetary exp

118 In light of current plans for exploration missions to Mars and other places, and the n

119 Specifically, a systematic exploration of 320,856 possible links between known drug

120 heir visual data summaries, facilitating the exploration of a hidden continuum.

121 gn of pooled genetic screens by enabling the exploration of a large space of experimental parameters

122 Here we report the exploration of a magnetically enhanced photon-transport-

123 nt actions carried out since 2001, prompting exploration of a Natural Sources Exclusion (NSE) provisi

124 Thus, in ReRh rats, exploration of a novel environment appears to interfere

125 ommunication support program included guided exploration of a question prompt list, communication cha

126 This opens new avenues for the exploration of adaptation of mammalian cells to gravitat

127 e drift in the Ndt80 regulon allowed for the exploration of alternative network structures without a

128 complicated ethical issue that calls for the exploration of alternative testing methods to reduce the

129 ond functional instruction to include deeper exploration of anticipated benefits and the underlying r

130 In the perspective of a temporal and spatial exploration of aquatic environments (surface and groundw

131 Additional exploration of astrocytes in HD mouse models and humans

132 Metacoder also allows exploration of barcode primer bias by integrating functi

133 DNA sequencing brings another dimension to exploration of biodiversity, and large-scale mitochondri

134 The exploration of bioinspired assemblies not only allows fo

135 behavior of growth cone filopodia during the exploration of both correct and off-target muscle fibers

136 d by the lack of efficient approaches to the exploration of both the large number of possible element

137 sting network visualization tools enable the exploration of cancer genomics data, most biologists pre

138 The exploration of chemical space for new reactivity, reacti

139 This makes the exploration of coherent quantum enhanced optimization pr

140 Structure-guided exploration of commercial chemical space using molecular

141 In hypothesis-free exploration of comorbid conditions, disease-disease netw

142 luminophores will open new doors for further exploration of complex biomolecular systems using non-in

143 Nevertheless, we close with an exploration of concatenating multiple elastic gridshell

144 Further exploration of Cu-microRNA functions that account for th

145 dium oxide nanosheets will contribute to the exploration of disordered structures from earth-abundant

146 These data lay the groundwork for the exploration of EC therapies that can serve as adjuvant m

147 s of stable isotope analyses as tools in the exploration of ecological niches.

148 ssing of facial expressions, overlooking the exploration of emotional body language (EBL), its capabi

149 general, are less about pleasure than about exploration of emotions.

150 f compounds, but also allows for the further exploration of exotic properties and practical applicati

151 Exploration of fitness landscapes in the context of a pr

152 vitro selection and should enable the future exploration of functional group dependence during the ev

153 00 Mb of WGS and 420 Mb of BAC sequences, an exploration of genetic diversity along each linkage grou

154 The exploration of genetic variation in HvP5CS1 may facilita

155 Exploration of haplotype diversity at potato's maturity

156 Underreporting of clinical variables limited exploration of heterogeneity.

157 Neo4j-based metabolic framework facilitates exploration of highly connected and comprehensive human

158 ctionary, which could allow the experimental exploration of important features of the spin-glass phas

159 Further, they support the exploration of inhibiting IM recruitment and function as

160 But despite the exploration of innovative molecular designs, it remains

161 dichalcogenide phase and will enable future exploration of its intrinsic transportation properties.

162 A systematic exploration of language structure by mouth and by hand m

163 software framework for collaborative visual exploration of large-scale genome variation data and ass

164 ation running in a web browser allowing fast exploration of large-scale population genomics datasets

165 egeneration after acute injury and allow for exploration of latent regenerative programs with potenti

166 Further exploration of macrolides showed that KCNJ5MUT was simil

167 cal systems on chip have made imperative the exploration of magnet free alternatives.

168 bility, these studies lay the groundwork for exploration of mechanisms by which gap junction nexus st

169 memories, providing a framework for further exploration of mechanisms underlying extinction of cocai

170 Our systematic exploration of methods for distinguishing biotech and ph

171 These findings motivate further exploration of methods of detecting cerebral disease pri

172 In order to advance the exploration of microbial secondary metabolism, we develo

173 ur data visualization tool enables efficient exploration of mitoprotease profiles that can serve as t

174 The exploration of molecular structure-property relations is

175 and maintenance of skilled movements require exploration of motor space and selection of appropriate

176 rocessing entangled states should enable the exploration of multiparticle entanglement on an extended

177 idation of epigenome association studies and exploration of new biological models for allelic exclusi

178 ot the kind of physical intuition needed for exploration of new ideas, such as one finds when simple

179 mic control of its bandgap can allow for the exploration of new physical phenomena.

180 This result may lead to the exploration of new targeted treatment options in MCC, es

181 mandatory testing before treatment motivates exploration of noninvasive rapid diagnostic tests (RDTs)

182 hesized compounds is encouraging for further exploration of novel analogues in antimicrobial drug dev

183 photoactivation of the same neurons reduces exploration of novel stimuli mimicking familiarity.

184 L pathophysiology will hopefully lead to the exploration of novel targets that potentially would be c

185 examined activation during visual or haptic exploration of objects and action execution (grasping or

186 within early visual areas during both haptic exploration of objects and subsequent actions toward the

187 , we investigated whether tactile and visual exploration of objects recruit the same "visual" areas (

188 his manner may also allow for pharmaceutical exploration of other enzymes previously viewed as intrac

189 ar resolution and provide a tool for similar exploration of other gap junction circuits.

190 ct of PD-1 immune checkpoint therapy prompts exploration of other strategies to downregulate PD-1 for

191 lent quantitative agreement, allowing for an exploration of parameter space that reveals multistable

192 Further exploration of pathological outcomes and long-term survi

193 We provide a first exploration of patient genome sequencing with a nanopore

194 rise phenomenologically from the stem cells' exploration of physical tissue space during its lifetime

195 f the associated phenotypic spectrum and the exploration of potential targeted treatment options.

196 of quantum emitters, possibly leading to the exploration of qualitatively different dynamics.

197 e to the motional ground state, enabling the exploration of quantum physics in larger, more massive s

198 Graphical exploration of relationships between predicted and obser

199 sign we identified should ultimately support exploration of relationships between sequence and amyloi

200 s, the more immediate benefit may be for the exploration of revascularized islet biology.

201 ncing both one's general tendency for visual exploration of scene content, as well as the precise mom

202 cial behavior, can benefit from much greater exploration of sequential social interactions.

203 ulcus and LOtv during the haptic than visual exploration of shapes in the dark.

204 -of-function and provides a platform for the exploration of small molecule modulators of hPINK1.

205 e availability of oxasmaragdyrin allowed the exploration of smaragdyrin in recent years.

206 of a dynamic compartmental model limited the exploration of structural sensitivities.

207 The exploration of such phenomena is making remarkably impor

208 Our findings provide strong rationale for exploration of systemic metabolism as a therapeutic targ

209 ond to biological reality and allow for fast exploration of TF clustering and regulatory dynamics.

210 include other features that facilitate deep exploration of the biology behind the image.

211 ecial Issue on Trauma, describe a new era in exploration of the biology of injury response and transl

212 Deeper exploration of the brain's vast synaptic networks will r

213 Exploration of the CRF1 receptor single nucleotide polym

214 It provides a rationale for the exploration of the CYGB pathway as a molecular target th

215 of data, and therefore enables an effective exploration of the data.

216 Exploration of the effect of the N substituent size and

217 Despite this information, the exploration of the effects that parasite infections exer

218 The stage is now set for exploration of the efficacy of this trigger in other PLP

219 origin of superconductivity in the cuprates.Exploration of the electronic structure of nickelates wi

220 Our exploration of the energy landscape of the Li-CO2 binary

221 ariety of environmental conditions to enable exploration of the genetic architecture of flowering tim

222 ing these tools facilitated an unprecedented exploration of the kinetics of Cas9-mediated DNA cleavag

223 Subsequent experimental exploration of the lowest-energy regions of the computed

224 Exploration of the model solution space reveals that sev

225 Further in-depth exploration of the molecular mechanisms regulating the c

226 hese results will guide further experimental exploration of the nature and dynamics of gene clusterin

227 Exploration of the orientational phase-space revealed th

228 Further exploration of the origins of these rate differences inv

229 n the active molecule would allow a rigorous exploration of the pathway and mechanism of photophysica

230 Prospective exploration of the pattern of differences between these

231 t role in quantum information processing and exploration of the physics of quantum entanglement.

232 Further exploration of the prevention mechanism of KJT by UPLC-Q

233 complex pediatric patients and that surgical exploration of the recipient before commencing the donor

234 ors with different specificities limited our exploration of the responsible HDAC member to HDAC1, HDA

235 Systematic exploration of the roles of tegument proteins in capsid

236 activity relationships for analogs of 3 with exploration of the structurally related dioxoisoindoline

237 Exploration of the structure-activity relationship led t

238 Further exploration of the target genes will continue to provide

239 proposed here chart a course for pioneering exploration of the veiled inner workings of the Earth.

240 These results encourage an exploration of the ways to break the causal chain betwee

241 Exploration of their behavior at the air-water interface

242 V. unguiculata and can be integrated in the exploration of their genetic diversity for improvement a

243 Exploration of their genomic relationships with South/Ea

244 r enables the study of ice nanotubes and the exploration of their potential applications.

245 An exploration of their present and potential utility in do

246 ion is of paramount importance to facilitate exploration of their utility.

247 A systematic exploration of these efforts is presently missing, and t

248 so provides a new framework for refining the exploration of these unique environments.

249 Our findings prompt the exploration of theta dynamics (using repeated electroenc

250 ty to relevant drugs, which warrants further exploration of this functional assay in the context of c

251 s will facilitate mechanistic and structural exploration of this important enzyme.

252 superconductor and pave the way for further exploration of this novel superconducting covalent metal

253 Further exploration of this technology may improve our understan

254 Our work opens an exciting route for the exploration of topological physics in time-modulated sys

255 Exploration of topology in photonic crystals and metamat

256 The exploration of two-dimensional solids is an active area

257 puter-assisted approach for accelerating the exploration of uncharted effective free-energy surfaces

258 odels of human disease are important for the exploration of underlying disease mechanisms as well as

259 ts also provide a new perspective for future exploration of universal influenza vaccines.

260 functional studies of Wnt signalling and the exploration of Wnt agonists for translational applicatio

261 Here, we present explorations of dynamical and tunneling disorder in an a

262 malian brain circuitry would enable powerful explorations of how neural circuits operate.

263 for epigenetic disorders, paving the way for explorations of novel therapeutics.

264 High-throughput explorations of novel thermoelectric materials based on

265 finements of future epidemic predictions and explorations of targeted interventions.

266 of the theoretical insight and experimental explorations of the crystal structure of lead-free perov

267 Finally, we highlight some insightful explorations of the implications of our ideas for ethics

268 childhood present new areas for mechanistic explorations of this disease.

269 Offshore oil exploration, oil spill contingency planning, and fish la

270 chable polarization, which motivates further exploration on magnetoelectric effect in single crystal/

271 This approach allows exploration on the basis of both data-fitting criteria a

272 This strategy will facilitate exploration on the chemical, structural, and electronic

273 nces in sequencing technology enable focused explorations on the contribution of low-frequency and ra

274 of existing DGCs during novel environmental exploration perturbed experience-induced neuronal additi

275 We found that social exploration preferentially recruits mPFC D2R+ cells, but

276 We found that exploration profoundly reduced spatially selective, choi

277 orts were identified through the Li-Fraumeni Exploration Research Consortium.

278 sible inhibitors of KDM1A, whose preliminary exploration resulted in compound 2 with biochemical IC50

279 which we found to be associated with object exploration, returned to baseline by 1 h in the same env

280 Further exploration revealed that these two networks were juxtap

281 we extract foraging parameters indicative of exploration (searching) and exploitation (foraging) and

282 ntent are fixated, as well as general visual exploration strategies, has yet to be determined.

283 strated the utility of mEPIC probes for data exploration such as hierarchical clustering.

284 tools in most cases and allows further data exploration such as time-series analysis on cfDNA sequen

285 wn deposits as well as forecasting potential exploration targets.

286 Despite long theoretical and experimental exploration, the nature of the triplet-pair state and in

287 vey such as pool top-up, and warrant further exploration through quantitative microbial risk assessme

288 Here, we have used a systematic scaffold exploration to design a general pharmacophore for AC inh

289 ated with EM Ascomycete and EM short-contact exploration type abundance, which may reflect a shift to

290 their satellites, which has motivated their exploration under high P-T conditions.

291 expressed in reduced neophobia and increased exploration variety, which led to greater experience, an

292 This new application simplifies data exploration, visualization, and integration for a better

293 Through medicinal chemistry exploration, we established a robust structure-activity

294 we were able to selectively inhibit directed exploration while leaving random exploration intact.

295 Predictive biomarkers and mechanistic explorations will be critical for identifying appropriat

296 These explorations will inform our efforts to develop highly e

297 KEY MESSAGE: Exploration with high throughput leaf metabolomics along

298 y cholinergic stimulation, an area of active exploration with respect to the development of cognitive

299 Unbiased exploration with VTEA enabled us to discover a populatio

300 es might have influenced the amount of total exploration, with juveniles exploring more than adults.