ライフサイエンスコーパス: pattern recognition receptor

1 lectin receptor langerin that functions as a pattern recognition receptor.

2 conserved docking mode, and thus acts like a pattern recognition receptor.

3 ora and mucosal immune responses through the pattern recognition receptor.

4 al transduction downstream of this important pattern recognition receptor.

5 ulate that NKp46/NCR1 may be a novel type of pattern recognition receptor.

6 y shows that a metabolic enzyme can act as a pattern recognition receptor.

7 ne system recognizes microbial pathogens via pattern recognition receptors.

8 eractions between TLR and Siglec families of pattern recognition receptors.

9 responses after engagement and signaling by pattern recognition receptors.

10 the retinoic acid-inducible gene I family of pattern recognition receptors.

11 ensive and direct interactions between these pattern recognition receptors.

12 signalling triggered by death receptors and pattern recognition receptors.

13 ogen-associated molecular patterns sensed by pattern recognition receptors.

14 aknesses in the innate immune system and its pattern recognition receptors.

15 n differential stimulation of late endosomal pattern recognition receptors.

16 ave been suggested as candidate Abeta innate pattern recognition receptors.

17 ted molecular patterns through specific host pattern recognition receptors.

18 ion motifs (hemITAMs) found in C-type lectin pattern recognition receptors.

19 of microbe-associated molecular patterns by pattern recognition receptors.

20 ssociated molecular patterns (MAMPs) through pattern recognition receptors.

21 belong to the RIG-I-like receptors family of pattern recognition receptors.

22 r alarmins that can trigger inflammation via pattern recognition receptors.

23 o trigger type I interferon (IFN) responses, pattern recognition receptors activate signaling cascade

24 recognize a wide array of self-antigens via pattern recognition receptors, adaptive immunity activat

25 Because pattern recognition receptor agonists continue to show m

26 Pattern recognition receptors allow the innate immune sy

27 Some pattern recognition receptors also sense endogenous liga

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

29 CD14, a coreceptor for several pattern recognition receptors and a widely used monocyte

30 be-associated molecular patterns (MAMPs) via pattern recognition receptors and activate innate immune

31 Pattern recognition receptors and IFN-stimulated genes h

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

33 ey recognize allergens through expression of pattern recognition receptors and mount an innate immune

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

35 copy, we observed differential expression of pattern recognition receptors and robust upregulation of

36 onse to bacteria, including acting as hybrid pattern recognition receptors and TCR coreceptors, and t

37 eficiency in MYD88, a signalling adaptor for pattern recognition receptors and Toll-like receptors, b

38 we have just begun to identify the required pattern recognition receptors and understand the signal

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

40 These include elevated levels of pattern-recognition receptors and dormant signaling enzy

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

42 Expression of pattern-recognition receptors and microRNAs was evaluate

43 infection is sensed by a variety of cellular pattern-recognition receptors and triggers the synthesis

44 ncRNAs expressed in cancer cells with innate pattern recognition receptors, and thereby assign a prev

45 imicrobial responses by different classes of pattern recognition receptors, and therefore by individu

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

47 Pattern recognition receptors are activated following in

48 Pattern recognition receptors are attractive targets for

49 Restriction factors and pattern recognition receptors are important components o

50 l-like receptors (TLRs), first identified as pattern recognition receptors, are now recognized to ser

51 tion, which established danger signaling via pattern recognition receptors as a new concept of kidney

52 Pathway analyses defined pattern-recognition receptors as the most sexually dimor

53 rate inflammatory responses to bacteria when pattern recognition receptors bind pathogen-associated m

54 strate that langerin not only functions as a pattern recognition receptor but also as an adhesion rec

55 Emerging evidence that pattern recognition receptors can differentiate between

56 studies have demonstrated that signaling by pattern recognition receptors can regulate metabolic pro

57 Distinct families of germline-encoded pattern recognition receptors can sense both microbial a

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

59 of the ER, acting as a guard receptor and a pattern recognition receptor, capable both of sensing ce

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

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

62 Toll-like receptors (TLR) are pattern recognition receptors classically associated wit

63 s of most cytokines following stimulation of pattern recognition receptors compared with whole blood

64 (2014) fill a missing link by showing that a pattern recognition receptor complex directly associates

65 3 inflammasome, a multiprotein intracellular pattern recognition receptor complex that facilitates th

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

67 Pattern recognition receptor complexes also have roles i

68 Pattern recognition receptors contain a binding domain f

69 TLRs 7 and 8 are pattern recognition receptors controlling antiviral host

70 tory signalling and are a repository for the pattern-recognition receptor cyclic GMP-AMP synthase (cG

71 fungi induce neutrophilic MDSCs through the pattern recognition receptor Dectin-1 and its downstream

72 In mice deficient for the pattern recognition receptor dectin-1 but not Toll-like

73 We adapted the pattern-recognition receptor Dectin-1 to activate T cell

74 Germline-encoded pattern recognition receptors detect molecular patterns

75 Cytoplasmic pattern recognition receptors detect non-self RNAs durin

76 e endocytic C-type lectin receptors serve as pattern recognition receptors, detecting pathogens by th

77 viral infections, whether the stimulation of pattern recognition receptors directly regulates hepcidi

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

79 zed by distinct families of germline-encoded pattern recognition receptors, endogenous and pathogen-d

80 imicrobial peptides and a rich repertoire of pattern recognition receptors evolved in early-branching

81 Retinoic acid-inducible gene I (RIG-I) is a pattern recognition receptor expressed in metazoan cells

82 Microbial products can be recognized by pattern recognition receptors expressed by immune and pa

83 lso activate microglia via interactions with pattern recognition receptors expressed on microglia.

84 tly to infectious Ags through stimulation of pattern recognition receptors expressed on their surface

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

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

87 mune receptor, a member of the peptidoglycan pattern recognition receptor family (PGRP-LC), is requir

88 ought to participate in innate immunity as a pattern recognition receptor for bacterial endotoxins, s

89 report serves as the first description of a pattern recognition receptor for CCHFV and highlights a

90 ce of human cells is decorated with numerous pattern recognition receptors for a variety of mycobacte

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

92 athogenic Th cell types via the signaling of pattern recognition receptors for innate immune response

93 individual cell types reliant on particular pattern recognition receptors for their innate-immune tr

94 -density lipoprotein receptor-1 (LOX-1) is a pattern-recognition receptor for a variety of endogenous

95 uitination of dectin-1 and dectin-2, two key pattern-recognition receptors for sensing Candida albica

96 ed gene 5 (MDA-5, IFIH1), a cytosolic innate pattern recognition receptor, functions as a first line

97 ng 10); however, the mechanism by which this pattern recognition receptor governs DC migration remain

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

99 timulatory effects through the activation of pattern recognition receptors; however, synthetic versio

100 es through interaction with pathogen-related pattern recognition receptors (ie, Toll-like receptors [

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

102 Following interaction with pattern recognition receptors in cross-talk with various

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

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

105 Thus, the activation of diverse pattern recognition receptors in mice causes a more seve

106 DAP12, a signaling adapter for multiple pattern recognition receptors in myeloid and natural kil

107 an evolutionarily conserved requirement for pattern-recognition receptors in antiviral autophagy.

108 a previously unknown function for microbial pattern-recognition receptors in the downregulation of i

109 We further show that IRGM interacts with pattern recognition receptors including NOD2.

110 ely activate distinct subtypes of macrophage pattern recognition receptors, including bacterial toll-

111 their environment through the expression of pattern recognition receptors, including Toll-like recep

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

113 Immune modulation resulting from pattern recognition receptor-induced responses is a pote

114 ontaining protein 2 (NOD2), an intracellular pattern recognition receptor, induces autophagy on detec

115 complement system and TLRs provide important pattern recognition receptors initiating the cytokine st

116 The interplay between Candida species and pattern recognition receptors, interleukins, kynurenine,

117 ecognition of non-self molecular patterns by pattern recognition receptors is a cornerstone of innate

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

119 ber of the Nod-like receptor (NLR) family of pattern recognition receptors, is a bacterial sensor tha

120 CD14, a multiligand pattern-recognition receptor, is involved in the activat

121 The soluble pattern-recognition receptor known as long pentraxin 3 (

122 Detection of cytosolic nucleic acids by pattern recognition receptors leads to the induction of

123 autophagy induced by nutrient deprivation or pattern recognition receptors, less is known about the e

124 edicago truncatula possess very similar LysM pattern-recognition receptors, LjLYS6/MtLYK9 and MtLYR4,

125 ting a type I IFN response via the cytosolic pattern recognition receptor Mda5.

126 The role of infectious and noninfectious pattern recognition receptor-mediated activation in the

127 inhibition of translation elongation blocked pattern recognition receptor-mediated XBP1 splicing, mim

128 us mouse hepatitis virus (MHV) activates the pattern recognition receptors melanoma differentiation-a

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

130 ibroblasts showed that RIG-I is the critical pattern recognition receptor needed for the influenza B

131 stream signaling following activation of the pattern recognition receptors NOD1 and NOD2, leading to

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

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

134 Following activation, the cytoplasmic pattern recognition receptor nucleotide-binding oligomer

135 Pentraxin 3 (PTX3) is a fluid-phase pattern recognition receptor of the humoral innate immun

136 immune responses are triggered by common TLR pattern recognition receptors of microbial products expr

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

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

139 ball-induced musculoskeletal trauma activate pattern-recognition receptors of the innate immune syste

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

141 Misfolded and aggregated proteins bind to pattern recognition receptors on microglia and astroglia

142 in individuals carrying genetic variants in pattern recognition receptors or adaptors would result i

143 esignated biological binding partners, be it pattern recognition receptors or carbohydrate binding le

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

145 t that the Toll-like receptor 9 (TLR9)-MyD88 pattern-recognition receptor pathway is uniquely capable

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

147 n important convergent substrate of multiple pattern recognition receptor (PRR) complexes.

148 In this study, we show that pattern recognition receptor (PRR) ligands, including li

149 tion in macrophages decreases cytokines upon pattern recognition receptor (PRR) restimulation; cytoki

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

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

152 ch regulates lymphocyte antigen receptor and pattern recognition receptor (PRR) signaling.

153 mined the innate cytokine response following pattern recognition receptor (PRR) stimulation of whole

154 oorly understand how vitamin D affects viral pattern recognition receptor (PRR)-driven cytokine produ

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

156 Pattern recognition receptors (PRR) promote pathogen era

157 Pattern recognition receptors (PRR) sense certain molecu

158 l cells sense Gram-negative bacteria via the pattern recognition receptors (PRR) Toll-like receptor (

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

160 Here we found that pattern-recognition receptor (PRR)-induced cytokine secr

161 of JAK2 expression and signaling determined pattern-recognition receptor (PRR)-induced outcomes; whe

162 ntly, a dysregulated increase or decrease in pattern-recognition receptor (PRR)-induced signaling and

163 Regulation of pattern-recognition-receptor (PRR)-induced signaling and

164 ecular patterns (PAMPs) by surface-localized pattern recognition receptors (PRRs) activates the NADPH

165 er of immunity mediated by surface-localized pattern recognition receptors (PRRs) also plays a role i

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

167 ction elicited upon pathogen recognition via pattern recognition receptors (PRRs) and cell:cell commu

168 Pattern recognition receptors (PRRs) and cytokine recept

169 atterns (PAMPs) are mediated by cell surface pattern recognition receptors (PRRs) and include the acc

170 During viral infection, pattern recognition receptors (PRRs) and their associate

171 ructures such as PGNs are perceived by plant pattern recognition receptors (PRRs) and whether host hy

172 Known T3S components that are detected by pattern recognition receptors (PRRs) are (i) flagellin,

173 Host pattern recognition receptors (PRRs) are critical in reg

174 Pattern recognition receptors (PRRs) are essential senti

175 but not C serotypes are known, how endosomal pattern recognition receptors (PRRs) detect HRV replicat

176 The pattern recognition receptors (PRRs) in epithelial cells

177 ar patterns (MAMPs) by cell-surface-resident pattern recognition receptors (PRRs) induces rapid, robu

178 sociated molecular patterns (PAMPs/MAMPs) by pattern recognition receptors (PRRs) is a key component

179 The interaction of microbes with pattern recognition receptors (PRRs) is essential for pr

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

181 ted molecular patterns (MAMPs) are sensed by pattern recognition receptors (PRRs) on cells of plants

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

183 The roles that pattern recognition receptors (PRRs) play in regulating

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

185 Plasma membrane-localized pattern recognition receptors (PRRs) such as FLAGELLIN S

186 have been made to therapeutically target the pattern recognition receptors (PRRs) such as the Toll-li

187 consist of two distinct groups of proteins: pattern recognition receptors (PRRs) that detect viral i

188 obe-associated molecular patterns (MAMPs) by pattern recognition receptors (PRRs) that initiate quant

189 n S100A8 in the PMN response and to evaluate pattern recognition receptors (PRRs) that initiate the r

190 ular patterns (PAMPs) that are recognized by pattern recognition receptors (PRRs) to activate pattern

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

192 s (RKs) and receptor-like proteins (RLPs) as pattern recognition receptors (PRRs) to sense pathogen-a

193 Continuous stimulation of pattern recognition receptors (PRRs), including nucleoti

194 , microbes are detected by surface-localized pattern recognition receptors (PRRs), leading to an inna

195 ammatory disorders is understanding how host pattern recognition receptors (PRRs), specifically toll-

196 Inflammation is commonly triggered when pattern recognition receptors (PRRs), such as Toll-like

197 en shown to be recognized by two families of pattern recognition receptors (PRRs), Toll-like receptor

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

199 cargos of plant trafficking pathways are the pattern recognition receptors (PRRs), which must be pres

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

201 robial recognition through germ line-encoded pattern recognition receptors (PRRs).

202 gen-associated molecular patterns (PAMPs) by pattern recognition receptors (PRRs).

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

204 ecular patterns (PAMPs) by surface-localized pattern-recognition receptors (PRRs) activates plant inn

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

206 They employ pattern-recognition receptors (PRRs) for sensitive and r

207 gen-associated molecular patterns (PAMPs) by pattern-recognition receptors (PRRs) located on the host

208 se invading microorganisms are recognized by pattern-recognition receptors (PRRs) of the innate immun

209 Toll-like receptors (TLRs) and other pattern-recognition receptors (PRRs) sense microbial lig

210 ved set of antimicrobial peptides as well as pattern-recognition receptors (PRRs) that initiate cellu

211 The innate immune system utilizes pattern-recognition receptors (PRRs) to detect the invas

212 ude cell-intrinsic innate responses that use pattern-recognition receptors (PRRs) to detect viral pat

213 roduction of type I interferons triggered by pattern-recognition receptors (PRRs), but not that of th

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

215 nflammasome assembly, oligomerized cytosolic pattern recognition receptors recruit procaspase-1 and p

216 crafty evasive strategies to circumvent the pattern recognition receptor response and thus establish

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

218 genetic deletion of Toll-like receptor 4, a pattern recognition receptor responsive to LPS, prevente

219 te that differences in the activation of key pattern recognition receptors resulted in the induction

220 pproach, we previously demonstrated that the pattern recognition receptor retinoic acid-inducible gen

221 ts and transposable elements, stimulates the pattern recognition receptor RIG-I to activate STAT1-dep

222 nce for differential recognition by ADAR1 or pattern recognition receptors RIG-I, MDA5 or PKR.

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

224 Innate immune pattern recognition receptors sense nucleic acids from m

225 ptor [Ifnar](-/-)) to understand the role of pattern recognition receptor-sensing pathways in arthrit

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

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

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

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

230 Reprogramming of pattern-recognition receptor signaling also occurred aft

231 e highlight these aspects of cell biology in pattern-recognition receptor signaling by focusing on si

232 Notably, L. iners induced pattern-recognition receptor-signaling activity, but no

233 . crispatus did not significantly upregulate pattern-recognition receptor-signaling, mucin expression

234 rtant role for collaboration between TNF and pattern recognition receptor signals in promoting maxima

235 We used these tools to quantify pattern recognition receptor spatiotemporal distribution

236 nd Mer (TAM) receptors in regulating chronic pattern recognition receptor stimulation and NOD2-induce

237 okines are attenuated after chronic NOD2 and pattern recognition receptor stimulation of macrophages;

238 l infection critically modifies responses to pattern-recognition receptor stimulation.

239 Plasma membrane-localized pattern recognition receptors such as FLAGELLIN SENSING2

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

241 The innate immune system uses pattern recognition receptors such as RIG-I and NLRP3 to

242 ic activities and abilities to engage innate pattern-recognition receptors such as TLR4.

243 OSE are recognized by innate 'pattern recognition receptors', such as scavenger recept

244 Fungal recognition via pattern recognition receptors, such as pentraxin 3, dect

245 Pattern recognition receptors, such as the Toll-like rec

246 y act as a physical barrier but also utilize pattern recognition receptors, such as the Toll-like rec

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

248 Pattern recognition receptors, such as Toll-like recepto

249 omes in DCs are also signaling platforms for pattern recognition receptors, such as Toll-like recepto

250 Pellino-mediated regulation of signaling by pattern recognition receptors, T-cell and B-cell recepto

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

252 advanced glycation end products (RAGE) is a pattern recognition receptor that interacts with advance

253 ne-rich repeat containing PYD-3 (NLRP3) is a pattern recognition receptor that is implicated in the p

254 NOD2 encodes an intracellular multidomain pattern recognition receptor that is the strongest known

255 taining protein 2 (NOD2) is an intracellular pattern recognition receptor that recognizes fragments o

256 Toll-like receptor 2 (TLR2) is a pattern recognition receptor that recognizes many types

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

258 TLR2 has been described as the main pattern recognition receptor that senses S. aureus and e

259 RIG-I is a pattern recognition receptor that senses viral RNA and i

260 ular relevance to viral infections are those pattern recognition receptors that activate type I inter

261 epeat (NLR) proteins are a diverse family of pattern recognition receptors that are essential mediato

262 ectin receptors (CLRs) represent a family of pattern recognition receptors that recognize carbohydrat

263 l IgM antibodies represent a class of innate pattern recognition receptors that recognize danger-asso

264 Plants perceive microbial invaders using pattern recognition receptors that recognize microbe-ass

265 Toll-like receptors (TLR) are transmembrane pattern recognition receptors that recognize microbial l

266 ough inhibition of currently uncharacterized pattern recognition receptors that respond to RNA compos

267 e response" is mediated by germ line-encoded pattern recognition receptors that trigger activation of

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

269 panded cnidarian-specific family of putative pattern-recognition receptors that might be involved in

270 signals released by dying cells, the role of pattern recognition receptors, the diverse subtypes of r

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

272 We sought to identify the ligands and pattern recognition receptors through which L lactis G12

273 egulate signaling cascades initiated via the pattern recognition receptors TLR-3 and MDA5/RIG-I, thus

274 ed the endosomal translocation of the innate pattern-recognition receptor TLR-3 (Toll-like receptor 3

275 l pathways that contain cytokine QTLs map to pattern recognition receptors (TLR1-6-10 cluster), cytok

276 n of hydrosalpinx than those mediated by the pattern recognition receptor TLR2, which has laid a foun

277 , which is accompanied by activation of both pattern recognition receptor TLR2- and inflammatory cyto

278 of the differentiated keratinocyte-specific pattern recognition receptor TLR7, the Langerhans cell c

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

280 In metazoans, the innate immune system uses Pattern Recognition Receptors to detect conserved microb

281 Dendritic cells (DCs) use pattern recognition receptors to detect microorganisms a

282 lipoteichoic acid (LTA), which interact with pattern recognition receptors to mobilize immune respons

283 molecular patterns (DAMPs) and interact with pattern recognition receptors to modulate inflammatory r

284 lectins, such as galectin-1, can function as pattern recognition receptors to reduce infection and in

285 Although the pattern recognition receptor Toll-like receptor 2 (TLR2)

286 nant cells after activation of the endosomal pattern recognition receptor Toll-like receptor 3 (TLR3)

287 Through pattern recognition receptors (Toll-like receptor 7 and

288 tivity, and requires no interaction with the pattern recognition receptor, Toll-like receptor 2 (TLR2

289 ce and primary brain cells, we connect a key pattern recognition receptor, Toll-like receptor 2 (TLR2

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

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

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

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

294 he innate immune system is activated through pattern recognition receptors-which include transmembran

295 ory leukocyte protease inhibitor (SLPI) is a pattern recognition receptor with anti-mycobacterial act

296 udy, we examined the role of PTX3, a soluble pattern recognition receptor with reported antimicrobial

297 Pyramiding cell surface pattern recognition receptors with intracellular immune

298 or the first time that TLR10 is a modulatory pattern-recognition receptor with mainly inhibitory prop

299 Toll-like receptor (TLR)10 is the only pattern-recognition receptor without known ligand specif

300 ommensal bacteria and their products through pattern recognition receptors, yet excessive immune reac