ライフサイエンスコーパス: recognition

1 are the most effective features for porosity recognition.

2 ed theta-phase locking during face and scene recognition.

3 dentify a regulatory mechanism for U2AF2 RNA recognition.

4 adenine's edges may contribute to molecular recognition.

5 TN2A1) as essential to Vgamma9Vdelta2 T cell recognition.

6 wly and contribute substantially more toward recognition.

7 sis, of cancer therapies have gained greater recognition.

8 ble length, providing diversity in viral RNA recognition.

9 essity of epitope clusters for effective mAb recognition.

10 ss transport theory with statistical pattern recognition.

11 mines with an auxiliary domain for substrate recognition.

12 ween macular damage and impairment of facial recognition.

13 anism with importance in adhesion and immune recognition.

14 ed valuable insights into protease substrate recognition.

15 e demonstrated an electronic effect on TRPV4 recognition.

16 tional penalties in transcription factor-DNA recognition.

17 tance of low-level image features for object recognition.

18 temporal cortex (VTC) is critical for visual recognition.

19 of the insertion domain in MvcA in substrate recognition.

20 pital place area) selectively impaired scene recognition.

21 fundamental differences in gammadelta T cell recognition.

22 y enhance our understanding of CD4(+) T cell recognition.

23 y, flexibility, and dynamics of human visual recognition.

24 NA topoisomerase 1) and Nsr1 (nuclear signal recognition 1).

25 spread in exosomes and thereby avoid immune recognition(3).

26 ody inversion (upside-down rotation) on body recognition, a behavioral signature of a specialized mec

27 that has uniquely evolved visual individual recognition abilities.

28 D remained a significant predictor of facial recognition after adjusting for potential confounders in

29 There is increasing recognition among those in public health that oral disea

30 was a significant correlation between facial recognition and 10-2 VF MD (P < .0001 better, worse eye)

31 gest a model for selective alphavirus genome recognition and assembly.

32 s finding suggests that effectiveness of TDF recognition and binding does not contribute significantl

33 Receptor recognition and binding is the first step of viral infec

34 After reversible protein target recognition and binding, covalent inhibitors irreversibl

35 t structural features for donor and acceptor recognition and catalysis.

36 ical outcome that can only be given from the recognition and consideration of the different EIMs.

37 competitive lithium inhibition and substrate recognition and define a sequence motif for metal bindin

38 The dual phosphorylation triggers ERG recognition and degradation by the E3 ubiquitin ligase F

39 The optimized recognition and degradation protocols were found accurat

40 ular mechanism that regulates ADAR substrate recognition and editing efficiency.

41 As, including acting on apoptosis, M. leprae recognition and engulfment, Schwann cell (SC) demyelinat

42 nt clades that were associated with antibody recognition and escape.

43 Recognition and explanation of such differences in multi

44 nd 2 O-glycan structures on the carbohydrate recognition and extracellular domains of the protein usi

45 molecular insights into the nucleosome-based recognition and histone-modification mechanisms of NSD2

46 iae IgA1 protease facilitates IgA1 substrate recognition and how this can be inhibited.

47 To better understand how recognition and identification occur in humans, we perfo

48 this study, we have characterized the T cell recognition and immune responses in mice to two naturall

49 lectin and PRM of importance for complement recognition and innate immunity.

50 rely on hand-crafted image features for axon recognition and is robust to variations in the extent of

51 in the brain processes that underlie emotion recognition and its developmental pathways.

52 are especially amenable because the promoter recognition and melting steps are much less complicated

53 in the downstream neuropils, such as odorant recognition and olfactory associative learning.

54 ting that although the PEP domain serves for recognition and orientation, interaction with the TMD is

55 Remarkably, 5' end recognition and pyrophosphate hydrolysis by the PPsome c

56 Moreover, it is unclear whether or not recognition and quality control of misfolded C-Pro domai

57 However, systematic recognition and recovery of macromolecular structures in

58 e excision repair enzyme responsible for the recognition and removal of 8-oxoguanine, a commonly occu

59 aches to determine the transient kinetics of recognition and repair of alkylated DNA by AlkB.

60 We assessed surgical workflow recognition and report a deep learning system, that not

61 MIP tagged with a redox probe, combines both recognition and reporting capabilities.

62 cGAS axis that enables cytoplasmic chromatin recognition and response to immune checkpoint blockade.

63 plays a critical role in controlling immune recognition and responses in normal tissues as well as t

64 ient for cGAS-mediated cytoplasmic chromatin recognition and SASP during senescence.

65 ndings deepen our understanding about ligand recognition and selectivity mechanisms of the formyl pep

66 immunosuppressive mechanisms to evade immune recognition and shape the local inflammatory environment

67 utput sequences, which allows for the target recognition and signal generation regions to be designed

68 has improved following advancements in early recognition and standardized management, including empha

69 d their regulation via LTTR proteins on drug recognition and suggest potential routes for interventio

70 idated intermediate states during antibiotic recognition and suggested structural changes that accomp

71 ementary methods for ligand-GPCR interaction recognition and thus significantly improves the coverage

72 machine learning-based NER tools for concept recognition and trained our concept embeddings, BioConce

73 However, the H3K27me3 recognition and transcriptional repression mechanisms ar

74 cterial biosynthesis pathways relying on the recognition and transport of lipid-linked complex carboh

75 nto the cellular determinants for phagocytic recognition and uptake of P. aeruginosa.

76 triage, use of preclinical scales for stroke recognition, and deployment of novel technical solutions

77 n CB2 and CB1 in receptor activation, ligand recognition, and G(i) coupling.

78 distance is required for improving rituximab recognition, and in agreement with the known requirement

79 ation of machine learning, optical character recognition, and manual curation, we identified 64,643 p

80 discuss recent insights into the generation, recognition, and recycling of polyprenyl lipids.

81 n poorly understood, although NTA has gained recognition as a key regulator of crucial processes such

82 We modeled recognition as the matching of patterns to learned templ

83 Automated speech recognition (ASR) systems, which use sophisticated machi

84 e complexity of IgE, IgG(4), and IgG epitope recognition at a global, allergome-wide level during all

85 Biomolecular recognition between proteins follows complex mechanisms,

86 The recognition between R proteins and their cognate pathoge

87 whereas, mutant OGG1 with impaired substrate recognition/binding was not.

88 paralog Pip1, which is not required for Avr2 recognition but contributes to basal resistance.

89 mporal (IT) cortex is responsible for object recognition, but it is unclear how the representation of

90 studied depending on anion coordination and recognition by a larger host-cucurbit[8]uril (CB[8]).

91 We further characterize lesion recognition by ATL and directly visualize DNA lesion sea

92 rms of macroautophagy, specifically on cargo recognition by autophagy receptor proteins p62 and NBR1

93 and explore how these patterns impact their recognition by C-type lectin receptors and the immunomod

94 The accompanied loss of tissue integrity, recognition by cellular immunity, and cell death are all

95 of different regulatory mechanisms in PML II recognition by ICP0 in HSV-1 infection.

96 fects in dictating the specificity of glycan recognition by proteins.

97 d METTL14) leads to an increase in viral RNA recognition by retinoic acid-inducible gene I (RIG-I), t

98 for the CD45 protein, essential for antigen recognition by T and B lymphocytes in viral-host interac

99 immune escape mechanism is insufficient for recognition by T cells owing to the downregulation of ma

100 of the molecular rules that underpin antigen recognition by TCRs and have important implications for

101 plex, which provides the basis for molecular recognition by the Nb.

102 anism that helps this bacterium evade immune recognition by the Toll-like receptor 2 family complex.

103 ities provide gammadelta T cells with unique recognition capabilities relative to alphabeta T cells,

104 research in the generation of novel disease-recognition capabilities.

105 munity initiatives to promote cardiac arrest recognition, cardiopulmonary resuscitation, public acces

106 oocyte transcriptome by using a specific TSS recognition code.

107 The six-subunit origin recognition complex (ORC), a DNA replication initiator,

108 ox only protein 44 (FBXO44) as the substrate recognition component.

109 eptual processes associated with visual form recognition contribute to covert and overt spatial selec

110 Retromer recognition core proteins were significantly decreased i

111 aintained post-translationally through their recognition, disassembly, and degradation by ClpC1, whic

112 A loop from the target recognition domain (TRD loop) recognizes the CpG dinucle

113 ents demonstrate that MOR displays molecular recognition dynamics on two different time scales involv

114 g events between the alpha-helical molecular recognition element (alpha-MoRE) of the intrinsically di

115 er peptide and of the RiPP precursor peptide recognition element, present in myriad RiPP-modifying en

116 y specific peptide nucleic acid (PNA) as the recognition element.

117 he covalent immobilization of the biological recognition element.

118 s, which are thought to bind to specific RNA recognition elements (RREs).

119 chia coli PBP1B, allowing us to (a) identify recognition elements of transpeptidase substrates, (b) r

120 can be paired with many antibody or related recognition elements to create a new class of biosensors

121 Several MYB recognition elements were found in the promoters of TBT,

122 By tuning the electrophilicity and appended recognition elements, we demonstrate the potential of th

123 operty of life that is crucial for molecular recognition, enzymatic function, information storage and

124 can help characterize a protease's substrate recognition, giving insights for the potential predictio

125 ICANCE STATEMENT Neural correlates of object recognition have traditionally been studied by flashing

126 fied a single alternative rotamer within the recognition helix itself as an important determinant of

127 y and found protein sequence features in the recognition helix that could be used to predict the spec

128 -helix inserted in the DNA major groove (the recognition helix).

129 A prominent theory of face recognition holds that the brain computes and stores ave

130 listeners (9 men) and was quantified as the recognition improvement in the precursor relative to the

131 Stress did impair novel object recognition in both sexes and social preference in femal

132 Chirality recognition in dimers of tetrahydro-2-furoic acid (THFA)

133 early molecular events associated with host recognition in Fusarium graminearum, an economically imp

134 Pro-Pro-Glu) proteins are targets for T-cell recognition in Mtb.

135 c" stimulation substantially improved speech recognition in multi-talker noise when the speech and no

136 There is growing recognition in the fields of public health and mental he

137 onceptually simple model of CD8(+) T cell Ag recognition, in which Ag dose and affinity do not provid

138 derstanding the molecular basis of cell-cell recognition, including unique phenomena associated with

139 ovided the molecular basis of dual inhibitor recognition involving the catalytic site in both enzymes

140 essing correct rejection (CR) of lures, item recognition (IR) and associative recall (AR) in human pa

141 Thus, local antigen recognition is an essential signal for differentiation o

142 sophila CTLH complex suggests that substrate recognition is different than orthologous complexes.

143 t RuvC nuclease and propagates up to the DNA recognition lobe in full-length CRISPR-Cas9.

144 On recall antigen recognition, M1-specific T cells rapidly undergo cytotox

145 ed to remove phosphatidylserine, a phagocyte recognition marker, from the outer leaflet of senescent

146 ling of replication processes to alternative recognition-mediated reactivity modes.

147 hat confound two covert factors: strength of recognition memory and the criterion for deciding what m

148 Deficits in recognition memory were evident at the late post-injury

149 ed and identified through supervised pattern recognition methods such as soft independent modeling of

150 (C3bc, C5a, and sC5b-9), the lectin pathway recognition molecule MBL, and antibody serology were ana

151 lectins and the ficolins are soluble pattern recognition molecules that contribute to complement acti

152 Here, we report a mutation in the RNA recognition motif (RRM) of CSTF2 that changes an asparti

153 aracterized the AtSRBP1-4 (AtGRP7/2/4/8) RNA recognition motif and GR domains.

154 ely bind to the interface of 14-3-3 with the recognition motif of either the tumor suppressor protein

155 ring reprogramming suggests a correlation of recognition motif sequence and spacing that may distingu

156 can synergize with a speckle-associated RNA recognition motif to promote speckle specificity and res

157 TIA1 contains three RNA recognition motifs (RRMs) and a C-terminal low-complexit

158 ere electron-rich PDI motifs are utilized as recognition motifs for fullerenes, facilitating novel in

159 tor X, or MAX for short, to bind certain DNA recognition motifs in gene promoters that regulate gene

160 Furthermore, alpaca BTN3 mediates PAg recognition much better than human BTN3A1 alone and this

161 bility, social interaction, and novel object recognition (NOR).

162 egion 1.2, which allosterically controls the recognition of -10 element by sigma region 2.

163 Awareness and recognition of a potential hereditary diffuse gastric ca

164 MutSalpha surveilles the DNA, and upon recognition of a replication error it undergoes adenosin

165 Clinician recognition of acute respiratory distress syndrome is as

166 While selective recognition of an enantiomeric guest from a racemic mixt

167 The recognition of and differential responses to salient sti

168 heory calculation, showing a unique chemical recognition of anions with low charge density.

169 Recognition of at-risk patients could permit early insti

170 Molecular recognition of carbohydrates is a key step in essential

171 e regions is required for the improvement in recognition of children's mental states caused by experi

172 Moreover, CLR-mediated recognition of commensal fungi maintains homeostasis and

173 s in an alternating DNA copolymer, multiplex recognition of different miRNAs was demonstrated.

174 Recognition of ER proteins by the KDEL receptor is pH de

175 Moreover, recognition of facing bodies is particularly susceptible

176 e observer) was found to be critical for the recognition of fear and anger.

177 f bioactive interactions by nature of ligand recognition of functional sites.

178 ndent internalization of PM proteins via the recognition of functional Tyr motifs also operates in pl

179 C-null virus, suggesting that gC hampers the recognition of gB epitopes in the viral particle.

180 Finally, recognition of gene fusions as a driving mechanism in ne

181 tive sensor built on the remarkably specific recognition of glyphosate by its physiological target en

182 Recognition of highly degenerate mammalian splice sites

183 are influenced by the addition, removal, and recognition of histone post-translational modifications

184 understood to focus on deflecting CD8 T cell recognition of infected cells by disrupting antigen pres

185 Recognition of influenza A virus (IAV) by the innate imm

186 Herein, we probed the recognition of lysine crotonylation and acetylation by t

187 onium salts from water and for the selective recognition of lysine-containing peptides, opening new p

188 es relatively higher cooperation by enabling recognition of marginal gains of cooperation in the game

189 Starting from the plasma membrane with the recognition of microbe-associated molecular patterns (MA

190 trafficking, OM lipid homeostasis, and host recognition of microbial patterns have shed new light on

191 The reversible recognition of monomer 4 and P for Al(3+) was also prove

192 a chimeric antigen receptor (CAR) to mediate recognition of mouse tumor cells that bear its cognate T

193 eby, evolves as a promising approach for the recognition of MP.

194 This result has implications for antibody recognition of MPER prior to and during the process wher

195 sfunction that is associated with diminished recognition of mycobacterial antigens in T2D.

196 binding at the higher affinity site through recognition of nucleosomal DNA.

197 te evidence that context promotes the visual recognition of objects, decades of research have led to

198 flipped peptide conformation, leading to the recognition of off-target peptides sharing little simila

199 receptors (TLRs) have a crucial role in the recognition of pathogens and initiation of immune respon

200 These data demonstrate that simultaneous recognition of PE and PS maximizes PS receptor-mediated

201 strated by signaling events initiated by TCR recognition of peptide Ag in concert with signals from m

202 us vulgaris), specifically respond to OS via recognition of proteolytic fragments of chloroplastic AT

203 ragment can be considered as the site of IgE recognition of Rhi o 2.

204 Here, we utilize the highly specific recognition of ribose by ribose-binding protein (RBP) to

205 ork provides a mechanistic framework for the recognition of sequence-divergent peptide hormones in pl

206 Through recognition of sialic acid-containing glycans as ligands

207 Recognition of simple shapes and numerosity estimation f

208 oving management of skin breakdown and early recognition of skin infection could prevent iGAS infecti

209 A novel approach to chiral recognition of small molecules using the classical ninhy

210 f receptor-like kinase MtLYK10 intervenes in recognition of succinoglycan, as might be inferred from

211 Early recognition of such CNS complications may improve functi

212 s (ZFs), with ZF2-ZF3 being required for the recognition of the AAUAAA poly(A) signal.

213 Such responses can be triggered by cross-recognition of the autoreactive TCR with foreign peptide

214 Despite increasing recognition of the critical role of coastal wetlands in

215 ter quality crises in the United States, and recognition of the health importance of drinking water i

216 Despite increasing recognition of the importance of GM-CSF in autoimmune di

217 mass densities contributes to an increasing recognition of the importance of physico-chemical proper

218 Despite long-standing recognition of the importance of precipitation amount an

219 ration in drug development: it can influence recognition of the intended target, pharmacokinetics, an

220 f the stringent requirement for simultaneous recognition of the pY motif and the surrounding folded p

221 ments has risen sharply in recent years with recognition of their potential as biomarkers of brain in

222 ysiological roles of SLCs as well as growing recognition of their therapeutic potential.

223 :01 and HLA-B*57:03 with the control of HIV, recognition of these HLA-B57 allomorphs by the killer ce

224 There was a strong but variable recognition of these proteins among 81% of group II dogs

225 therapy that relies on T lymphocyte-mediated recognition of tumor antigens.

226 Cross-recognition of viral epitopes by CD8 T cells is associat

227 y for most other flaviviruses, with no cross-recognition of YFV-derived peptides.

228 ttle is known about the structure, substrate recognition, or catalysis by family members.

229 lish DeepTetrad, a deep learning-based image recognition package for pollen tetrad analysis that enab

230 servation network (AON) and a ventral object recognition pathway.

231 inct set of genes that are implicated in the recognition, phagocytosis and/or endocytosis, and mainte

232 ite by duplicating the volume of the preQ(1)-recognition pocket.

233 y and advance our understanding of molecular recognition principles.

234 Computations can be viewed as language recognition problems where both languages and automata r

235 This molecular recognition process could, in principle, be integrated i

236 epresents a very effective natural molecular recognition process widely exploited for diagnostic, bio

237 orphyrin tether actively participates in the recognition process, resulting in a strong synergistic e

238 ision employs a highly efficient imaging and recognition process.

239 emical techniques can be used to study anion recognition processes (e.g., binding constant determinat

240 of natural supramolecular polymers, and such recognition processes allow for dynamic self-alteration,

241 We also characterized the different antibody recognition profiles using immunoprecipitation of size-f

242 l SBP, OppA3 (Ct) , possessed dual substrate recognition properties and is capable of transporting pe

243 esis, X-ray crystal structure, and molecular recognition properties of pillar[n]arene derivative P[6]

244 elicited mAbs exhibited a wide breadth of HA recognition, ranging from narrowly reactive to broadly r

245 nt of interindividual variability in pattern-recognition receptor (PRR)-induced cytokines in myeloid

246 nalyses of VZV T-cell immunity, and pathogen recognition receptor function in primary antigen-present

247 identified coinciding activation of pattern recognition receptor pathways normally tasked with the d

248 Nod2 is a pattern recognition receptor that modulates host innate immune r

249 us serving as a key vitality-sensing pattern recognition receptor.

250 Pattern recognition receptors (PRRs) on immune and parenchymal c

251 However, resistances mediated by pattern recognition receptors (PRRs) remain less utilized.

252 We have shown that these pattern recognition receptors are expressed below tight junction

253 ms that regulate the sensitivity of pathogen recognition receptors is imperative to understanding inf

254 ll-like receptors (TLRs), a class of pattern recognition receptors that initiate innate immune respon

255 iated molecular patterns (MAMPs) via pattern recognition receptors, internal cellular signaling pathw

256 f IFN-gamma-induced genes, including pattern recognition receptors, MHC class II genes, and IFN-gamma

257 ion in response to activators of the pattern recognition receptors, toll-like receptor-2 (TLR2) and -

258 factor that is activated by multiple pattern-recognition receptors.

259 strongly induced upon activation of pattern recognition receptors.

260 tors and elicitors associated with herbivore recognition remain elusive.

261 n domain comprised of three potential GalNAc recognition repeats termed alpha, beta, and gamma.

262 nds RNA without displacement of the promoter recognition sigma factor from the core enzyme.

263 state and store it for learning and pattern recognition, similar to the optic nerve in human eye.

264 cturally transforming a loop adjacent to the recognition site by duplicating the volume of the preQ(1

265 ly amplified by the DNA regions flanking the recognition site, which contain long tracts of degenerat

266 ite, which contain long tracts of degenerate recognition-site repeats.

267 sing a combination of base readout and shape recognition, some fundamental aspects of protein-DNA bin

268 Biophysical determinants of recognition specificity are poorly understood.

269 ures at the RT-aptamer interface that govern recognition specificity by a broad-spectrum antiviral ap

270 tant property of antigen-antibody binding is recognition specificity, which best can be estimated by

271 nherent in designing a sensor-based activity recognition system operating in and around a lossy mediu

272 However, whether selection for species recognition systematically increases signal diversity du

273 polysaccharides and polysaccharide molecular recognition systems coordinate the principal responses w

274 We used an associative recognition task designed to elicit strong hippocampal a

275 cantly reduced memory performance in a scene recognition task, impaired hippocampal connectivity to m

276 , that are not directly relevant to the word recognition task.

277 iologists who were asked to perform the same recognition task.

278 s found in the attention task but not in the recognition task.

279 Deep neural networks (DNNs) excel at visual recognition tasks and are increasingly used as a modelin

280 r number of parameters in large-scale visual recognition tasks on natural images.

281 yllene is among the most difficult molecular recognition tasks.

282 ory layers, small area analysis, and pattern recognition techniques for electronic devices.

283 se performance differences and ensure speech recognition technology is inclusive.

284 chine learning tool "Small Molecule Accurate Recognition Technology" (SMART 2.0) for mixture analysis

285 The recognition that dysregulated dynein-mediated transport

286 There is increasing recognition that e-cigarettes impact vascular function a

287 can promote neural wiring through homophilic recognition that leads to either adhesion or repulsion b

288 Instead of locking cognate tRNA upon initial recognition, the ribosomal decoding centre dynamically m

289 For competing speech, speech recognition thresholds were measured for different cue c

290 Molecular recognition to preorganize noncovalently polymerizable s

291 sed on magnetic induction for human activity recognition to tackle these challenges and constraints.

292 It is crucial for many tasks, from object recognition to tool use, and yet how the brain represent

293 translate secondary findings into meaningful recognition, treatment, and prevention of disease.

294 The first achieves pHLA recognition via affinity-enhanced versions of natural TC

295 In live cell-based assays, LGI1 epitope recognition was examined with patient sera (n = 31), CSF

296 e probing the nucleobase determinants of 5mC recognition, we discovered that TET enzymes are also pro

297 nown, present observation of "reverse chiral recognition" where the guest molecule determines the han

298 ous macular damage exhibit diminished facial recognition, which is partly mediated through diminished

299 cipital complex) selectively impaired object recognition, while TMS over scene-selective cortex (occi

300 LysoQuant is trained for unbiased and rapid recognition with human-level accuracy, and the pipeline