ライフサイエンスコーパス: artificial

1 looking at a case study of how imagery-based artificial agents can solve visuospatial intelligence te

2 We then look at how artificial agents, instead of being designed manually by

3 performance, construct new motors combining artificial and biological components, and contrast biomo

4 e by an eyemate(R)-IO sensor in-vitro, in an artificial and controlled environment.

5 s necessary to equilibrate pLGICs from their artificial and crystalized conformation to a more native

6 ncept functionality was proven by using both artificial and multiple natural protein pairs, such as K

7 as across a range of hydrochemically diverse artificial and natural freshwaters.

8 Using artificial and real data sets, we show how chronnets can

9 Simulation results on artificial and real temporal networks show that the prop

10 We propose the use of concatemer, an artificial and stable isotope-labelled protein composed

11 s that are surprisingly poorly classified by artificial and/or natural neural networks.

12 vering 95% of Mtb protein-coding genes using artificial antigen-presenting cells (aAPCs) and reporter

13 ptide-exchangeable peptide/HLA multimers and artificial antigen-presenting cells for 25 different cla

14 ilitate cell-mediated transport and serve as artificial antigen-presenting cells, and iii) macroscale

15 bers of nearly indistinguishable and tunable artificial atoms into phase-stable PICs marks a key step

16 l next step is to integrate large numbers of artificial atoms with photonic architectures to enable l

17 ts macroscopic superconducting circuits into artificial atoms(2), enabling some of the best-controlle

18 g peril through uncoordinated management and artificial barriers to human movement, such as border fe

19 to a host mimic which they bite to obtain an artificial blood meal.

20 y desirable for diverse applications such as artificial cartilages and tendons, robust antifouling co

21 aspects is largely missing in the design of artificial catalysts.

22 brain injury patients were applied to create artificial CBFVs.

23 tely, multiplets in CITE-seq datasets create artificial cell types (ACT) and complicate the automatio

24 We propose CITE-sort, an artificial-cell-type aware surface marker clustering met

25 The construction of artificial cells from inanimate molecular building block

26 The attractions of engineering artificial cells from scratch, as opposed to re-engineer

27 zing decision-making with a few molecules in artificial cells has remained a challenge.

28 d cell models to decipher the rules of life, artificial cells have the potential to be designed as mi

29 : is it possible to interface biological and artificial cells together to create hybrid living/synthe

30 study actin-based positioning mechanisms in artificial cells with persistently contracting actomyosi

31 o cell-like containments aiming to assemble "artificial cells" are addressed.

32 lated droplet interface bilayers (eDIBs), or artificial cells, and the bioluminescence tracked in rea

33 processing with low-power consumption inside artificial cells.

34 ons of synthetic reaction systems, including artificial cells.

35 d integration of phospholipid synthesis into artificial cells.

36 Microtubules assembled from artificial centrosomes in microfluidic chambers of defin

37 into human plasma, synthetic urine (SU), and artificial cerebral spinal fluid (aCSF) using ethyl acet

38 ory inputs and perfusing them with hyperoxic artificial cerebral spinal fluid to minimize peripheral

39 that asters were able to find the center of artificial channels and annular cylinders, even when cyt

40 knowledge generated from these studies, the Artificial Chemist is pre-trained to use a new batch of

41 e S-locus in Petunia inflata using bacterial artificial chromosome clones collectively containing all

42 A bacterial artificial chromosome containing the sequence of ZIKV st

43 Sequencing of a bacterial artificial chromosome in the fine mapped region led to t

44 llowed the production of surprisingly stable artificial collagen fibers and hydrogels.

45 the rational design or directed evolution of artificial ComRS systems for a range of biotechnological

46 The bundling process can be reproduced in artificial conditions in the absence of any specific cro

47 ing to what extent cell lines cultured under artificial conditions reflect the phenotypic and genomic

48 Among other sources of 'artificial' confounding, including cyclical oscillations

49 yltransferases M.BceJIII and M.EcoGIX, using artificial constructs.

50 ond, as a possible basis for the building of artificial cortices for the stabilization of synthetic c

51 The impact produced an artificial crater with a diameter >10 meters, which has

52 nd cell culture media, as well as < 10 pM in artificial CSF.

53 a sets were analyzed; 1) a set that included artificial data in order to demonstrate the use of the f

54 ndent Modeling of Class Analogy analyzing an artificial dataset and testing a real one, two hierarchi

55 e weight gain in response to E2 treatment or artificial decidualization compared with controls; howev

56 ctomized adults to 17beta-estradiol (E2) and artificial decidualization were measured.

57 ein, genistein, and kaempferol were added to artificial diet, at 3.5-6.5 x leaf level concentrations,

58 Our artificial diet-feeding study indicates that dsRNAs grea

59 mping parameter (either space or time) as an artificial dimension.

60 ctical applications, we previously described artificial DNA looping driven by designed transcription

61 Recently, the possibility to create artificial drive constructs to modify pest populations h

62 f-flavour is generated from an inappropriate artificial drying applied on beans to speeding up the po

63 In this work, an artificial electrode/electrolyte (E/E) interface, made b

64 the combination of RL and ABM can create an artificial environment for policy makers to observe pote

65 The creation of artificial enzymes is a key objective of computational p

66 Recent advancements in the creation of artificial extra base pairs (unnatural base pairs, UBPs)

67 Both biological and artificial fliers must contend with aerial perturbations

68 ilar way, and we add that bumblebees face an artificial flower more when the concentration of the suc

69 ies in terms of their ability to navigate in artificial forest areas.

70 i-CD19 chimeric antigen receptors (CARs) are artificial fusion proteins that cause CD19-specific T-ce

71 velopment of various applications, including artificial general intelligence.

72 ato bushy stunt virus (TBSV) replicase using artificial giant unilamellar vesicles (GUVs).

73 Here, we add two artificial glycans to uniformly (15)N labeled prion prot

74 to Utah's biomaterials efforts and the Total Artificial Heart program at the time, while providing th

75 upport (biventricular assist device or total artificial heart) was the highest for patients with ACM

76 Red blood cell-based solutions, artificial hemoglobin solutions, and acellular solutions

77 In addition, we create artificial heterostructures and hybridize their physical

78 Remarkably, artificial hPAC generated by fimbria-fornix stimulation

79 aboratory evolution experiment on a panel of artificial hybrids to measure TE accumulation in the nea

80 on recruitment and selectivity stemming from artificial (i.e., neural implant) stimulation and on the

81 e sequence space of native IDPs and designed artificial IDPs (A-IDPs) with different molecular weight

82 This work expands the functional utility of artificial IDPs as well as the available microarchitectu

83 varying analytical results, as well as cause artificial imaging artifacts or false heterogeneity.

84 Following an artificial increase in centriole number without tetraplo

85 manifests upon O-vacancy formation, and the artificial increase in TiO(2) surface area.

86 Achieving atomic dispersion requires an artificial increase of the absolute TiO(2) surface area

87 Artificial induction of both the sustained NPQ and recov

88 Accordingly, while artificial induction of hunger or thirst in sated mice v

89 blood samples from 17 heifers on the day of artificial insemination and analyzed transcript abundanc

90 cryopreserved semen, laparoscopic oviductal artificial insemination was performed on three queens, t

91 Using artificial insemination, in combination with vasectomize

92 females were later classified as pregnant to artificial insemination, pregnant to natural breeding or

93 2010, substantial progress has been made in artificial intelligence (AI) and its application to medi

94 bricated by combining modern technologies of artificial intelligence (AI) and microfluidics.

95 sharing clinical data for the development of artificial intelligence (AI) applications.

96 plasmon resonance (SPR)-based biosensor and artificial intelligence (AI) assisted diagnosis of COVID

97 Recently, it has been shown that artificial intelligence (AI) can transform one form of c

98 pants; (4) extensive reliance on cloud-based artificial intelligence (AI) for data analysis; (5) pote

99 Artificial intelligence (AI) has demonstrated promise in

100 Artificial intelligence (AI) has the potential to fundam

101 The latest developments in artificial intelligence (AI) have arrived into an existi

102 Breakthroughs in artificial intelligence (AI) hold enormous potential as

103 Artificial intelligence (AI) holds promise for cardiovas

104 Artificial intelligence (AI) is becoming established in

105 Advanced artificial intelligence (AI) methods in high-resolution

106 ome countries (LMICs) have raised hopes that artificial intelligence (AI) might help to address chall

107 Advances in machine learning (ML) and artificial intelligence (AI) present an opportunity to b

108 Background Although artificial intelligence (AI) shows promise across many a

109 Here we present an artificial intelligence (AI) system that is capable of s

110 The performance of the artificial intelligence (AI) system was assessed by comp

111 coefficients (ICCs) for the radiologists and artificial intelligence (AI) system were calculated on a

112 As artificial intelligence (AI) systems begin to make their

113 Artificial intelligence (AI) systems for computer-aided

114 application on Internet of Things (IoTs) and artificial intelligence (AI).

115 eveloped and validated a deep learning-based artificial intelligence algorithm (DLA) for detecting MI

116 Finally, our explainable artificial intelligence algorithm identified a mutationa

117 We evaluated a prototype artificial intelligence algorithm to classify basal lung

118 Purpose To develop an artificial intelligence algorithm to differentiate COVID

119 Conclusion DeepCOVID-XR, an artificial intelligence algorithm, detected coronavirus

120 gnificantly higher results compared with the artificial intelligence algorithm: artificial intelligen

121 Our model as the first application of artificial intelligence and deep learning to medical ima

122 Artificial intelligence and digital slide scanning show

123 tion of single-cell multi-omics and imaging, artificial intelligence and patient-derived experimental

124 sual memory are fundamental requirements for artificial intelligence and robotics with autonomous nav

125 Artificial intelligence and/or machine learning was appl

126 This study sought to develop an artificial intelligence approach for the detection of HC

127 natural language processing techniques as an artificial intelligence approach have been leveraged to

128 en the algorithm and radiologists, we regard artificial intelligence as a promising clinical decision

129 s offers a unique opportunity for the use of artificial intelligence assistance systems to alleviate

130 Artificial intelligence has recently made a disruptive i

131 evel in a coauthor network from the field of artificial intelligence in education, an emerging interd

132 elligence tools to ensure responsible use of artificial intelligence in medicine.

133 Artificial intelligence inference, however, especially f

134 Artificial intelligence is becoming increasingly importa

135 Artificial intelligence is increasingly being used to im

136 it is difficult to develop a mathematical or artificial intelligence model that describes the time ev

137 Here, we trained an artificial intelligence model to estimate a paper's repl

138 Artificial intelligence offers promising solutions for p

139 Conclusion An artificial intelligence system for brain MRI approached

140 Conclusion Use of an artificial intelligence system improves radiologists' pe

141 ration wearable electronics and multifaceted artificial intelligence systems.

142 itive flexibility and building more flexible artificial intelligence systems.

143 canonical video game environment for testing artificial intelligence techniques, in which model-based

144 l applications of deep learning, the leading artificial intelligence technology for image analysis, a

145 Machine learning (ML) utilizes artificial intelligence to generate predictive models ef

146 ties for virtual clinical trials, the use of artificial intelligence to streamline and interpret data

147 nic, racial, age, and sex groups for all new artificial intelligence tools to ensure responsible use

148 echniques merging statistical, inference and artificial intelligence tools.

149 hroughput computation, machine learning, and artificial intelligence work collectively to reveal the

150 (Consolidated Standards of Reporting Trials-Artificial Intelligence) extension is a new reporting gu

151 s: Recommendations for Interventional Trials-Artificial Intelligence) extension is a new reporting gu

152 Machine learning, a subfield of artificial intelligence, is enabling scientists, clinici

153 tion error theory of dopamine, imported from artificial intelligence, represents the full distributio

154 level the playing field between natural and artificial intelligence, so that we can separate more su

155 with the artificial intelligence algorithm: artificial intelligence-area under the receiver-operatin

156 o reduce the number of missed findings in an artificial intelligence-assisted reading setting.

157 n computerized image analysis and the use of artificial intelligence-based approaches for image-based

158 ulin dose adjustments guided by an automated artificial intelligence-based decision support system (A

159 Artificial intelligence-based detection achieved a highe

160 n are methodological issues in evaluation of artificial intelligence-based interventions, reporting s

161 ociated with learning continuous theories by artificial intelligence.

162 toelectronics, human-machine interfacing and artificial intelligence.

163 one of the main challenges in the pursuit of artificial intelligence.

164 lectronics are rapidly promoting advances in artificial intelligence.

165 ssing the molecular interactions of a set of artificial intrinsically disordered proteins (IDPs), we

166 good stability during prolonged operation in artificial ISF.

167 ct Organ, which provides a user-controllable artificial larynx sound source, a vowel sound is synthes

168 derscores that MOFs are promising to develop artificial LHCs, but that to achieve an efficient excito

169 This is an example of how the integration of artificial life and biological life could be designed wh

170 when complex enzyme reactions are driven by artificial light absorbers.

171 hifts driven by climate change and increased artificial light at night (ALAN).

172 r, few studies have focused on the impact of artificial light at night on ecosystem functions.

173 t aliased frequency components caused by the artificial light sources in the hospital, using auto-reg

174 Artificial light-harvesting systems in aqueous media whi

175 a key challenge to develop highly efficient artificial light-harvesting systems.

176 l ability of the human brain to represent an artificial limb as a body part (embodiment) has been ins

177 om one of the stages, ImageAEOT generates an artificial lineage of this cell based on the population

178 The prospect of self-propelled artificial machines small enough to navigate within biol

179 ecosystem, and on docks within the marsh, an artificial mangrove analogue.

180 t natural marine snow protocols to generate 'artificial' marine snow, into which bacteria can be inco

181 tion of macroscopic monolayers and bulk-like artificial materials with controllable properties.

182 y of A. tumefaciens to grow appropriately in artificial medium, and an A. tumefaciens vtlR deletion s

183 ntary membrane proteins, and that orthogonal artificial membrane proteins can influence the cofactor

184 plementation of such biological functions in artificial membranes and demonstrate two-dimensional sel

185 Neutron reflection measurements on artificial membranes, so-called sparsely tethered bilaye

186 ddition, current information is derived from artificial mesocosm experiments, while support from natu

187 Artificial microcilia structures have shown potential to

188 ) macroscale materials can form the basis of artificial microenvironments to promote cell infiltratio

189 Acoustic metamaterials with artificial microstructures are attractive to realize int

190 about how evolutionary processes (natural or artificial) might have modified underlying neural struct

191 s have inspired chemists for decades to seek artificial mimetics of proteins with improved or novel p

192 ary contexts demand a theory of (natural and artificial) minds to characterize and validate the immer

193 The artificial mixture of the identified six compounds could

194 Moreover, artificial modulation of the membrane curvature near int

195 y candidates for the design and synthesis of artificial molecular machines.

196 nd contrast biomolecular motors with current artificial molecular motors.

197 Herein, we rationally design a DNA-based artificial molecular signaling system that uses the conf

198 ion sites for different metal ions within an artificial molecular strand enables it to be tied into m

199 e precise control of dye-dye interactions in artificial multichromophoric ensembles.

200 We present a deformable artificial multimodal ionic receptor that can differenti

201 new class of high-performance, self-sensing artificial muscles that couple electrostatic and hydraul

202 ion-has long inspired researchers to create "artificial muscles" in an attempt to replicate its versa

203 Other demonstrations include artificial muscles, which can lift masses that are about

204 are useful for informing the restoration of artificial nesting areas across the Amazon, as nesting a

205 as modeled and optimized using a multi-layer artificial neural network (ANN) coupled with genetic alg

206 present study was to develop and validate an artificial neural network (ANN) for the prediction of N-

207 that combines a first-principle model and an artificial neural network (ANN) model so that prediction

208 velop five different and simple in structure artificial neural network (ANN) models that are capable

209 Here, we asked whether an artificial neural network (with convolutional structure)

210 An Artificial Neural Network ensemble trained on features e

211 oach that combines a popular, sequence-based artificial neural network method, NetMHCpan 4.0, with th

212 ze these 'dark matter' sequences, we used an artificial neural network to identify candidate viral ca

213 me estimation is performed via a pre-trained artificial neural network with 1000-fold improvement in

214 In this regard, the use of artificial neural networks (ANN) to develop calibration

215 We trained a cascade of artificial neural networks (ANNs) on a large labelled da

216 Artificial neural networks are notoriously power- and ti

217 A popular approach is to realise artificial neural networks in hardware by implementing t

218 s has some similarities with encoder-decoder artificial neural networks in which the input is first c

219 Artificial neural networks suffer from catastrophic forg

220 We first applied a range of artificial neural networks that differed in both learnin

221 putationally efficient than the conventional artificial neural networks, though their full computatio

222 Artificial neurons built from these memristors not only

223 cts we reveal highlight the need for outdoor artificial night-time lighting to be limited to the plac

224 l number of distinct subunits when designing artificial nucleic acid structures.

225 and are of relevance for efforts to develop artificial or minimal cell systems.

226 The design of artificial oxyanion receptors with switchable ion prefer

227 cose-responsive microdevice operating as an "artificial pancreas" for the release of insulin.

228 p system of insulin delivery (also called an artificial pancreas) may improve glycemic outcomes in ch

229 btained paves the way to design and engineer artificial pathways towards second generation meroterpen

230 ialic acid, the second structure contains an artificial peptide in the sialic acid binding site.

231 g new or improved photovoltaic materials and artificial photosynthesis for water splitting and other

232 ial utilization as efficient chromophores in artificial photosynthesis is closely related to the unde

233 gin with a brief introduction to natural and artificial photosynthesis, followed by a discussion of t

234 of the motivation and rationale behind semi-artificial photosynthesis.

235 ytic water oxidation, a reaction crucial for artificial photosynthesis.

236 ility in organic electronics, photonics, and artificial photosynthesis.

237 photosynthesis, or indeed future studies of artificial photosynthetic complexes.

238 designing and controlling PCET reactions in artificial photosynthetic systems and other energy conve

239 ility of this approach by reconstructing the artificial phylogeny emerging in three rounds of directe

240 Additionally, expression of artificial PM-PER tethers is sufficient to restore reten

241 stidine or cysteine ligands, within a single artificial protein.

242 ve the origin of this linear relationship in artificial random networks.

243 The artificial receptor with a simple electrode-electrolyte-

244 terials, conducting polymers, biological and artificial receptors are presented.

245 enges of glycan recognition with natural and artificial receptors' by Stefano Tommasone et al., Chem.

246 of mitochondrial [4Fe-4S] aconitase without artificial reductants and verified the [2Fe-2S]-containi

247 aphene and other two-dimension platforms for artificial reduction of CO(2) to solar chemicals and fue

248 that reduces fitness and impedes natural and artificial repopulation of the oyster species within the

249 fy correlations between dry-mass content and artificial-reproduction outcomes.

250 tform for the study of the photo response of artificial retina systems.

251 As artificial RNA oligonucleotides or single-stranded DNA w

252 prolonged culturable state of V. cholerae in artificial sea water at 4 degrees C, whereas the mutatio

253 ore) structural motifs are photo-oxidized on artificial seawater by the use of a solar simulator.

254 ies, Prunus persica (peach), indicating that artificial selection during domestication may have acted

255 However, cultivation practices and intense artificial selection for yield may entail a hidden cost:

256 banded mongoose, a feature that may reflect artificial selection in the process of domestication for

257 reen alga Dunaliella tertiolecta after using artificial selection to evolve a 9.3-fold difference in

258 requencies of genomic variants responding to artificial selection.

259 ty on regulation of TRA2beta-PE using CRISPR artificial SFs.

260 Results on artificial single-cell transcription profiling data show

261 radiometer to monitor changes in the diffuse artificial skyglow of cities.

262 Furthermore, artificial skyrmion lattices with various arrangements c

263 Iron-rich biocements stabilized the artificial slope and were significantly more resistant t

264 bioreactor was allowed to overflow onto the artificial slope.

265 With such an artificial solid electrolyte interphase, lithium symmetr

266 ted in laboratory and modeling studies using artificial solutions, natural subsurface seawater (SSW),

267 on identified prosthetic hand postures using artificial somatosensory feedback.

268 tact system, but the combination of multiple artificial somatosensory percepts by human prosthesis us

269 Here we report the engineering of CRISPR Artificial Splicing Factors (CASFx) based on RNA-targeti

270 and assessment using simple, low-dimensional artificial stimuli.

271 andblasting denim jeans and manufacturing of artificial stone benchtops has led to re-emergence of si

272 tingly, the TIP3P water model, leading to an artificial structural collapse, also resulted in unreali

273 monolayers can be assembled into macroscopic artificial structures, including transition metal dichal

274 tween April 2016 to May 2017, a total of 243 artificial substrate samplers were deployed at five loca

275 With artificial sweat, the energy and power densities of the

276 ralose is widely used as non-caloric intense artificial sweetener.

277 tive was to assess anthropogenically derived artificial sweeteners and per- and polyfluoroalkyl subst

278 are stimulated in response to sugar but not artificial sweeteners, and are activated by direct deliv

279 metric conductance-update characteristics of artificial synapses prevent a hardware neural-network fr

280 The research presented here employed an artificial system of fermentation, using controlled incu

281 he droplet needs for cargo transport and the artificial system provides the transport for the otherwi

282 eat variety of complex physical, natural and artificial systems are governed by statistical distribut

283 c plasticity is a significant limitation for artificial systems that must robustly operate in the nat

284 ordered nanostructures have been realised in artificial systems, with unique properties for light loc

285 have significant advantages over static and artificial systems.

286 to as HDX ensemble reweighting (HDXer), for artificial target data reflecting the two major conforma

287 This work demonstrates the utility of an artificial tick feeding system to directly study the ass

288 For this, we constructed arrays of artificial tissues with different formulated lipid compo

289 ued by increased tRNA concentration or by an artificial tRNA not dependent on wobble base-pairing.

290 alternative alkylation strategy to introduce artificial tryptic cleavage sites at Cys29 and Cys33 in

291 th, we used a computational model to develop artificial tumor constructs.

292 Without artificial tuning to the laboratory data, the model show

293 l species were cultivated during exposure of artificial UVB.

294 lication of viruses and in the production of artificial viral cages for bio/nanotechnological applica

295 ontaining S-peptide that self-assembled into artificial virus-like capsids of approximately 47 nm in

296 We developed an algorithm based on artificial vision and machine learning (and other classi

297 residual retinal circuit can provide useful artificial visual perception, the resolutions of current

298 Artificial water channels are synthetic molecules that a

299 y fluctuations in inlet channels, leading to artificial widening of DI versus cell size plots.

300 a major challenge being the establishment of artificial Wolbachia infections expressing desired chara