ライフサイエンスコーパス: pattern recognition

1 mplex processes such as image processing and pattern recognition.

2 timal mass transport theory with statistical pattern recognition.

3 were analyzed using a multivariate method of pattern recognition.

4 eal-time signal processing applications like pattern recognition.

5 ng the neural mechanisms underlying acoustic pattern recognition.

6 ry, and we create a chemical Autoencoder for pattern recognition able to perform the equivalent of on

7 eported wearable mask device and respiratory pattern recognition algorithms could be widely used in r

8 aces retain sufficient information to permit pattern-recognition algorithms to correctly identify the

9 tegories that may be detectable by automated pattern recognition, an approach that is essential for t

10 ies in both mass-univariate and multivariate pattern recognition analyses independent of MDD diagnosi

11 Raman spectral signatures were identified by pattern recognition analysis and clustered all study par

12 Pattern recognition analysis applied on data on phenolic

13 h a single working electrode is submitted to pattern recognition analysis preceded by variable select

14 hyperspectral images (HSI-NIR) combined with pattern recognition analysis, partial-least-squares disc

15 ge and/or expertise in physics, mathematics, pattern recognition and computer vision and learning.

16 te infiltration and blunts the expression of pattern recognition and defense response genes in monocy

17 Key tasks, such as pattern recognition and image classification, are well s

18 iliation 4 (Inner Mongolia Key Laboratory of Pattern Recognition and Intelligent Image Processing, Sc

19 Nurses routinely engage in pattern recognition and interpretation in qualitative re

20 mune system senses microbial ligands through pattern recognition and triggers downstream signaling ca

21 e necessary for complex visual tasks such as pattern recognition and visual navigation.

22 developed to analyze the IR spectra by novel pattern-recognition and statistical tools, to determine

23 quantum communications, compressive imaging, pattern recognition, and so on.

24 a popular tool for dimensionality reduction, pattern recognition, and visualization of high dimension

25 ripts associated with leukocyte trafficking, pattern recognition, antigen presentation, and costimula

26 nce of large-scale weather systems through a pattern-recognition approach based on daily 500 hPa geop

27 n cognitive explanations of fly behaviour in pattern recognition assays.

28 g tasks, including coincidence detection and pattern recognition, at ultrafast rates.

29 Pattern recognition based on data drawn from large-scale

30 iting progression through mitosis or loss of pattern recognition by stimulator of interferon genes (S

31 ular pattern and damage-associated molecular pattern recognition by the innate immune system, and how

32 protein that bound mtDNA and contributed to pattern recognition by Toll-like receptor 9 (TLR9).

33 he process of myelination in detail, and MRI pattern recognition can provide a clinical diagnosis in

34 Tools for automated pattern recognition can provide objective information to

35 Sensor arrays are further employed to enable pattern recognition capable of discriminating between si

36 lly, imaging has been kept separate from the pattern recognition circuitry.

37 Seven of 8 subjects preferred pattern recognition control over direct control.

38 ormed a 6-8 week home trial using direct and pattern recognition control with a custom prostheses mad

39 Cyclic cGMP-AMP synthase (cGAS) is a pattern recognition cytosolic DNA sensor that is essenti

40 neural networks, successfully demonstrating pattern recognition directly in the optical domain.

41 he cellular and physiological responses upon pattern recognition, elucidating the molecular, biochemi

42 via pathogen- or danger-associated molecular pattern recognition exerts antitumor effects on peritone

43 The new pattern recognition feature will help researchers identi

44 ion that could be addressed through enhanced pattern recognition from deep learning.

45 Semi-supervised pattern recognition has been proposed to automate this t

46 Recent studies in pattern recognition have shown the advantage of using mu

47 n SCR7 isoforms that contribute to decreased pattern recognition in SCR7(H402).

48 thods to distinguish disease states based on pattern recognition in the adaptive immune response coul

49 automated and interactive tool that enables pattern recognition in time-series multi-omics assays.

50 Results demonstrate that pattern recognition is a viable option and has functiona

51 ge Neuropsychological Test Automated Battery pattern recognition latency.

52 fundamental design principles ranging from a pattern recognition method via deep-learning convolution

53 Multiview extensions of four well-known pattern recognition methods are proposed here.

54 classified and identified through supervised pattern recognition methods such as soft independent mod

55 Here, bioinformatic and pattern recognition methods were applied to identify a u

56 Two pattern recognition methods were tested: linear discrimi

57 Using pattern recognition methods, the determined voltammetric

58 obtained from digital images associated with pattern recognition methods, without any sample preparat

59 n interactions, sequence motif discovery and pattern recognition, molecular evolution and adaption, a

60 results suggest that PTX3 acts as a humoral pattern recognition molecule in gout facilitating MSU cr

61 We found that MAp44 competed with MASP-3 for pattern recognition molecule interaction, and knockdown

62 l accepted, whereas the role of properdin as pattern recognition molecule is controversial.

63 Toll-like receptor 4 (TLR4) is a pattern recognition molecule of the innate immune system

64 We focused on collectin-11 (CL-11), a pattern recognition molecule that can trigger complement

65 erefore challenge the view of properdin as a pattern recognition molecule, and argue that the experim

66 agen and globular structures, resembling the pattern recognition molecules (PRMs) of the classical an

67 ructural homology shared by other complement pattern recognition molecules and has its major function

68 The collectins and the ficolins are soluble pattern recognition molecules that contribute to complem

69 D bound to CC and reduced deposition of Igs, pattern recognition molecules, and complement factors on

70 cation models in fried matrices based on the pattern recognition of images.

71 -prone NZBxW mice with our binning approach "pattern recognition of immune cells (PRI)".

72 Previously, we demonstrated that Pattern Recognition of RNA by Small Molecules (PRRSM) ca

73 ractions), but rather olfaction makes use of pattern recognition of the combined response of several

74 We show that pattern recognition offers a versatile strategy to visua

75 feature detection process is approached as a pattern recognition problem, and thus, ANN was utilized

76 nd understanding, rather than merely solving pattern recognition problems; (2) ground learning in int

77 multiple binding motifs with precise spatial pattern-recognition properties, and that this approach c

78 essing methods, and a Probabilistic Symbolic Pattern Recognition (PSPR) method.

79 variety of gut commensals and pathogens, and pattern recognition receptor (PRR) ligands, and investig

80 rization domain 1 (NOD1) is an intracellular pattern recognition receptor (PRR) responsible for sensi

81 ion occurs in response to both virus-induced pattern recognition receptor (PRR) signaling and cellula

82 ntestinal microbes, and proper regulation of pattern recognition receptor (PRR) signaling is critical

83 We sought to identify pattern recognition receptor (PRR) signaling pathway(s)

84 also identified G-protein coupled and novel pattern recognition receptor (PRR), P2RY10, as a central

85 eterminant of interindividual variability in pattern recognition receptor (PRR)-induced cytokines in

86 dehydrogenase (SDH) subunit A, and amplifies pattern recognition receptor (PRR)-induced SDH activity,

87 it the negative regulatory mechanisms of the pattern recognition receptor (PRR)-mediated inflammatory

88 ed kinase 1 (SlWak1), has been implicated in pattern recognition receptor (PRR)-triggered immunity (P

89 Pattern recognition receptor activation by viral nucleic

90 ed keratinocytes and responds only weakly to pattern recognition receptor activation.

91 Nucleic acid-based pattern recognition receptor agonists are effective adju

92 Because pattern recognition receptor agonists continue to show m

93 stream of a calcium influx, and required the pattern recognition receptor and adaptor STING but not c

94 Our results corroborate TRIM5alpha as pattern recognition receptor and shed light on its previ

95 advanced glycation end products (RAGE) is a pattern recognition receptor capable of recognizing mult

96 (oxPCCD36) that are ligands for the platelet pattern recognition receptor CD36.

97 ulating the composition of a serine protease-pattern recognition receptor complex, MBL-associated ser

98 hus, NLRP3 mediated by ASC appears to be the pattern recognition receptor driving HBoV1 infection-ind

99 y an unrecognized role for SAA1 as a soluble pattern recognition receptor for conserved FABPs found i

100 tors identified RIG-I as the major cytosolic pattern recognition receptor for detection of ZIKV.IMPOR

101 ycation end-products (RAGE) is a multiligand pattern recognition receptor implicated in diverse chron

102 cent studies reveal that CRIg functions as a pattern recognition receptor in vivo for Kupffer cells (

103 canonical FoxP3(+ )T(REGS) is unaffected by pattern recognition receptor ligation and is modulated b

104 nated EndoU that facilitates evasion of host pattern recognition receptor MDA5, but the target of End

105 previously showed an important role for the pattern recognition receptor NOD2 in skin wound repair.

106 Moreover, activation of pattern recognition receptor on macrophages induces secr

107 inflammasomes represent a central cytosolic pattern recognition receptor pathway leading to the gene

108 Thus, SPPL2a deficiency alters pattern recognition receptor pathways in a CD74-dependen

109 We identified coinciding activation of pattern recognition receptor pathways normally tasked wi

110 The pattern recognition receptor RAGE (receptor for advanced

111 6)A-modified circRNA, directly activates RNA pattern recognition receptor RIG-I in the presence of ly

112 ide receptor 2 (FPR2) is a G protein-coupled pattern recognition receptor sensing both mitochondrial-

113 racterized post-translational consequence of pattern recognition receptor signaling is the assembly o

114 be observed downstream of death receptor or pattern recognition receptor signaling under certain cel

115 e cationic protein more similar to a soluble pattern recognition receptor than to conventional cytoki

116 ether, these results suggest that DRH-1 is a pattern recognition receptor that detects viral replicat

117 Nod2 is a pattern recognition receptor that modulates host innate

118 CCN1 is therefore a pattern recognition receptor that opsonizes bacteria for

119 NLRP3 is a cytosolic pattern recognition receptor that senses microbes and en

120 IBCD1 as a previously unrecognized microbial pattern recognition receptor through which intestinal ep

121 DRH-1 appears to act as a pattern recognition receptor to induce the IPR transcrip

122 pensable for cytokine-dependent induction of pattern recognition receptor, cell adhesion, or chemotax

123 Toll-like receptor 3, an innate pattern recognition receptor, is triggered by HRV, drivi

124 The cytoplasmatic pattern recognition receptor, NOD2 (nucleotide-binding o

125 at the expression of PTX3, a soluble form of pattern recognition receptor, was induced by infection w

126 In line with its postulated role as pattern recognition receptor, we show that TRIM5alpha al

127 hat the host responses were due primarily to pattern recognition receptor-triggered immunity.

128 fumigatus serving as a key vitality-sensing pattern recognition receptor.

129 ive bacterial protein can activate CD36 as a pattern recognition receptor.

130 s, such as cytomegaloviruses (CMVs), through pattern-recognition receptor (PRR) pathways involving My

131 We found that upon pattern-recognition receptor (PRR) stimulation of human

132 sregulated cytokine secretion in response to pattern-recognition receptor (PRR) stimulation.

133 somes, HIV-1 somehow evades detection by the pattern-recognition receptor (PRR) Toll-like receptor 8

134 eterminant of interindividual variability in pattern-recognition receptor (PRR)-induced cytokines in

135 ry thus provides a critical link between the pattern-recognition receptor complex and calcium-depende

136 inase BOTRYTIS-INDUCED KINASE1 (BIK1) of the pattern-recognition receptor complex, and this triggers

137 Animals have evolved an array of pattern-recognition receptor families essential for reco

138 e due to downregulated expression of a viral pattern-recognition receptor in alveolar macrophages.

139 mmasomes, and each is influenced by a unique pattern-recognition receptor response.

140 Pyrin is a cytosolic pattern-recognition receptor that normally functions as

141 ral infection triggers host defenses through pattern-recognition receptor-mediated cytokine productio

142 sense microbial signatures via activation of pattern recognition receptors (PPRs), which trigger a ra

143 Germline-encoded innate immune pattern recognition receptors (PRR) are expressed at epi

144 GN are proinflammatory through engagement of pattern recognition receptors (PRR) on resident tissue c

145 PAMPs/MAMPs) are detected as nonself by host pattern recognition receptors (PRRs) and activate patter

146 Pattern recognition receptors (PRRs) are crucial for res

147 Pattern recognition receptors (PRRs) expressed in antige

148 The pattern recognition receptors (PRRs) in epithelial cells

149 obe-associated molecular patterns (MAMPs) by pattern recognition receptors (PRRs) induces currents me

150 ge-associated molecular patterns (DAMPs) for pattern recognition receptors (PRRs) may represent one s

151 ining analogs of microbial products activate pattern recognition receptors (PRRs) on antigen-presenti

152 Pattern recognition receptors (PRRs) on immune and paren

153 Inflammatory reactions activated by pattern recognition receptors (PRRs) on the membrane of

154 rtance of DAMPs, which signal through innate pattern recognition receptors (PRRs) or DAMP-specific re

155 Some cell-associated pattern recognition receptors (PRRs) recognize and respo

156 However, resistances mediated by pattern recognition receptors (PRRs) remain less utilize

157 Pattern recognition receptors (PRRs) sense microbial pat

158 From plants to mammals, pattern recognition receptors (PRRs) specifically recogn

159 Pathogen activation of innate immune pattern recognition receptors (PRRs) such as Toll-like r

160 ted molecular patterns (PAMPs/DAMPs) through pattern recognition receptors (PRRs) such as Toll-like r

161 Toll-like receptors (TLRs) are the pattern recognition receptors (PRRs) that recognize path

162 Plants utilize cell surface-localized pattern recognition receptors (PRRs) to detect pathogen-

163 s (RKs) and receptor-like proteins (RLPs) as pattern recognition receptors (PRRs) to monitor their ap

164 Pathogen pattern recognition receptors (PRRs) trigger innate immu

165 obe-associated molecular patterns (MAMPs) by pattern recognition receptors (PRRs) triggers the first

166 Pattern recognition receptors (PRRs), including the Toll

167 immune system senses viral infection through pattern recognition receptors (PRRs), leading to type I

168 viral RNA cleavage products of RNase L bind pattern recognition receptors (PRRs), like retinoic acid

169 how that low basal expression of RNA-sensing pattern recognition receptors (PRRs), or their co-recept

170 cular patterns (PAMPs) are detected by plant pattern recognition receptors (PRRs), which gives rise t

171 (NOD)-like receptors belong to the family of pattern recognition receptors (PRRs).

172 eby suggesting their recognition by specific pattern recognition receptors (PRRs).

173 g by several Toll-like receptors (TLRs), key pattern recognition receptors (PRRs).

174 ssRNA40 or 2'3'-cGAMP, which activate other pattern recognition receptors (PRRs).

175 Rhinovirus (RV) recognition by pattern recognition receptors activates the mitogen-acti

176 Pattern recognition receptors and IFN-stimulated genes h

177 Cells recognize virus infection through pattern recognition receptors and induce type I interfer

178 effects not only toward C5aR1 but also other pattern recognition receptors and innate immune systems,

179 analyzed with cytofluorimetric analysis for pattern recognition receptors and intracellular signals,

180 NLRX1 is a member of the NLR family of pattern recognition receptors and is a potent negative r

181 OMV, and LPS groups consisting of bacterial pattern recognition receptors and neutrophil activation

182 ve mutants via a pathway requiring cytosolic pattern recognition receptors and NF-kappaB.

183 defense that up-regulates the expression of pattern recognition receptors and sustains inflammatory

184 ia survive in macrophages despite triggering pattern recognition receptors and T cell-derived IFN-gam

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

186 Thus, the only pattern recognition receptors contributing to the IFN-al

187 NLR are innate immune pattern recognition receptors expressed in the gut and b

188 Pattern recognition receptors expression was assessed in

189 f the C-type lectin receptor family serve as pattern recognition receptors facilitating pathogen upta

190 n receptors (CLRs) have emerged as important pattern recognition receptors for infectious danger.

191 TLRs, a family of membrane-bound pattern recognition receptors found on innate immune cel

192 d TLRs, the signals emanating from different pattern recognition receptors have to be integrated to a

193 e of transcriptional responses downstream of pattern recognition receptors in informing the adaptive

194 h trigger inflammatory responses by engaging pattern recognition receptors in macrophages.

195 ic microbes, but mounting data suggest these pattern recognition receptors might also play key roles

196 NOD1 and NOD2 are pattern recognition receptors of the innate immune syste

197 ival correlated with decreased expression of pattern recognition receptors on host phagocytes known t

198 scuss how lipid ligands on OMVs engage these pattern recognition receptors on the membranes and in th

199 The pattern recognition receptors RIG-I-like receptors (RLRs

200 analysis of the influence of human aging on pattern recognition receptors signaling and monocyte fun

201 ngal immunity involves fungal recognition by pattern recognition receptors such as C-type lectin rece

202 ated molecular patterns (DAMPS) by cytosolic pattern recognition receptors such as NOD-like receptors

203 In contrast, intracellular pattern recognition receptors such as NOD-like receptors

204 one of the first lines of host defense, with pattern recognition receptors such as the Toll-like rece

205 ochondrial DAMPs such as mtDNA bind specific pattern recognition receptors such as Toll-like receptor

206 Keratinocytes express many pattern recognition receptors that enhance the skin's ad

207 NLRP1 and CARD8 are related germline-encoded pattern recognition receptors that form inflammasomes, b

208 ivate toll-like receptors (TLRs), a class of pattern recognition receptors that initiate innate immun

209 ormyl-peptide receptors (FPRs) are important pattern recognition receptors that sense specific bacter

210 responses upon selective stimulation of the pattern recognition receptors TLR4 and Dectin-1.

211 converge with those activated downstream of pattern recognition receptors to determine the type and

212 or efficient interaction of RNA ligands with pattern recognition receptors to enhance IFN production

213 , and antioxidants and express innate immune pattern recognition receptors to respond to inhaled fore

214 sociated molecular patterns (PAMPs) and bind pattern recognition receptors to stimulate IFN productio

215 The innate immune system uses pattern recognition receptors to survey the intracellula

216 protein-mediated signaling through cytosolic pattern recognition receptors was required for polyinosi

217 Most NLR proteins function as cytosolic pattern recognition receptors with activation of downstr

218 med gene expression of LC-related molecules, pattern recognition receptors, and enhanced expression o

219 C. elegans lacks homologs of most mammalian pattern recognition receptors, and how nematodes detect

220 to interferon signaling, neuro-inflammation, pattern recognition receptors, and macrophages.

221 ation of several pathogenesis-related genes, pattern recognition receptors, and resistance genes, whi

222 Bacteria are recognized by innate host pattern recognition receptors, and we previously showed

223 be-associated molecular patterns (MAMPs) via pattern recognition receptors, internal cellular signali

224 bition of IFN-gamma-induced genes, including pattern recognition receptors, MHC class II genes, and I

225 nia, lung neutrophils increase expression of pattern recognition receptors, receptors for inflammator

226 tified 129 immunity-related genes, including pattern recognition receptors, signal modulators, few me

227 This signaling is initiated by pattern recognition receptors, such as the RNA helicase

228 , rhIFN-gamma increased expression levels of pattern recognition receptors, such as Toll-like recepto

229 mes containing unshielded RNAs that activate pattern recognition receptors, thereby promoting tumor g

230 expression in response to activators of the pattern recognition receptors, toll-like receptor-2 (TLR

231 signaling, granzyme B signaling and pathogen pattern recognition receptors, which are responsible for

232 ecular patterns (PAMPs) by surface-localized pattern recognition receptors, which initiates a series

233 n immune system utilizes several families of pattern recognition receptors, which survey the intracel

234 but are strongly induced upon activation of pattern recognition receptors.

235 s undergoing ER stress or stimulated through pattern recognition receptors.

236 suggest an evasion of detection by host cell pattern recognition receptors.

237 ered by surface IgE cross-linking or through pattern recognition receptors.

238 protection from detection by host cytosolic pattern recognition receptors.

239 (TLRs), an evolutionarily ancient family of pattern recognition receptors.

240 ose-binding lectin (MBL)/ficolins, important pattern- recognition receptors (PRRs) of the complement

241 Ps), which initiate immune responses through pattern-recognition receptors (PRR).

242 The interactions between the different pattern-recognition receptors (PRRs) and cell wall patho

243 invading pathogens and stress by activating pattern-recognition receptors (PRRs) in the host.

244 Animal cells use pattern-recognition receptors (PRRs) to detect specific

245 exposed to microbial products that stimulate pattern-recognition receptors (PRRs).

246 he detection of viral double-stranded RNA by pattern-recognition receptors (RIG-I/MDA-5) and that NKG

247 s revealed that ALV infection is detected by pattern-recognition receptors (TLR9 and TLR3) leading to

248 hat the Brassicaceae may have evolved unique pattern-recognition receptors and antimicrobial root met

249 by innate immune activation mediated through pattern-recognition receptors and endothelial-to-mesench

250 l established; this is mediated primarily by pattern-recognition receptors and is central to the acti

251 Several families of pattern-recognition receptors exist that detect immunost

252 s during infection when they are detected by pattern-recognition receptors in animal cells.

253 TLR8 is among the highest-expressed pattern-recognition receptors in the human myeloid compa

254 Type I IFN activation is induced by pattern-recognition receptors of the innate immune syste

255 re sensed either directly, through cytosolic pattern-recognition receptors specific for bacterial lig

256 d induction is a consequence of signaling by pattern-recognition receptors that have been selected ov

257 peptide receptors (FPRs) serve as phagocyte pattern-recognition receptors that play a crucial role i

258 the adhesion molecules ICAM and VCAM and the pattern-recognition receptors TLR7 and TLR9 in the vascu

259 spond to the gut microbiota through multiple pattern-recognition receptors, including TLRs and NLRs.

260 am regulatory proteins, classically known as pattern-recognition receptors, operate to assess infecti

261 llular necrosis is initiated by a battery of pattern-recognition receptors, such as Toll-like recepto

262 cesses add or remove cargo proteins (such as pattern-recognition receptors, transporters, and other p

263 iggered immunity, including glycosylation of pattern-recognition receptors.

264 ription factor that is activated by multiple pattern-recognition receptors.

265 mplex autoimmune disease with dysfunction in pattern-recognition responses, including within the NLR

266 Thus, Pf triggers maladaptive innate viral pattern-recognition responses, which impair bacterial cl

267 profiling by MSI-CE-MS with temporal signal pattern recognition revealed new biomarkers for early de

268 Based on a pattern recognition scheme, we identify a pattern of cor

269 to viral infection, but also synergizes with pattern recognition sensing to mount a potent antiviral

270 cular diseases, but the microbiota-triggered pattern recognition signaling mechanisms that impact thr

271 ductance state and store it for learning and pattern recognition, similar to the optic nerve in human

272 in diseases is based primarily on the visual pattern recognition skills and expertise of the physicia

273 , but for the most part have harnessed human pattern-recognition skills rather than human creativity.

274 ore than 200 RNP particle tracks by Bayesian pattern recognition software found that 3% of particles

275 duction technique as a part of an integrated pattern recognition solution capable of identifying adul

276 tic model of a cerebellar Purkinje cell in a pattern recognition task show that, in the absence of no

277 advance) over India based on an unsupervised pattern recognition technique that uses meteorological p

278 underlying habitats; and (2) an unsupervised pattern recognition technique to recover the temporal co

279 the eight sampling lots were subjected to a pattern recognition technique.

280 of sensory layers, small area analysis, and pattern recognition techniques for electronic devices.

281 Finally, the pattern recognition techniques such as hierarchical clus

282 e analytical data were collected, supervised pattern recognition techniques such as linear discrimina

283 btained from digital images), and supervised pattern recognition techniques to classify red wines pro

284 Unsupervised pattern recognition techniques unveiled three main clust

285 In a second step, several supervised pattern recognition techniques were used to construct ma

286 l component analysis (PCA), three supervised pattern recognition techniques, Partial Least Squares Di

287 imaging with probabilistic tractography and pattern recognition techniques.

288 und to outperform any other state-of-the-art pattern recognition techniques.

289 different honeys was developed through three-pattern recognition techniques: principal component anal

290 ects of TMR may be enhanced when paired with pattern recognition technology.

291 This framework borrows tools from the Pattern Recognition theory and uses the coefficient of d

292 n theory and artificial neural network (ANN) pattern recognition to classify exposure source based on

293 Our results demonstrate the potential for pattern recognition to provide key insights into cold-at

294 r-infrared region (HSI-NIR) and multivariate pattern recognition, to study and monitor the extent - s

295 esulting 2D fingerprints were interpreted by pattern recognition tools (i.e. template matching finger

296 itous, ranging from simple data analysis and pattern recognition tools to complex systems that achiev

297 Pattern recognition underpins innate immunity; the accur

298 This work has largely emphasized object and pattern recognition, which suggests that these are more

299 al and statistical significance in comparing pattern recognition with direct control.

300 thods for machine learning are ubiquitous in pattern recognition, with support vector machines (SVMs)