ライフサイエンスコーパス: latex

1 rotein levels and less TbCPT activity in the latex.

2 ansferase 3 (CPT3), exclusively expressed in latex.

3 ed cells phagocytose nonopsonized silica and latex.

4 B receptor and is predominantly expressed in latex.

5 al five pathway enzymes were detected in the latex.

6 cent laticifers, which contain morphine-rich latex.

7 sPL) and carboxyl-modified (cPL) polystyrene latex.

8 crude enzyme extract from Calotropis procera latex.

9 iologic transverse EOM loading and isotropic latex.

10 ployed transversely loaded EOM and isotropic latex.

11 ectric point of 3.5 was purified from papaya latex.

12 y the addition of sterically stabilized P2VP latex.

13 in extracts obtained from Hevea brasiliensis latex.

14 pies or the collection and handling of their latex.

15 d plant cells that synthesize and accumulate latex.

16 fabrication of armored nanocomposite polymer latexes.

17 n all cases for chlorhexidine 19/44 (43%) or latex 21/44 (48%)], staffing [only 26/44 (59%) had speci

18 e 47.7% (418), 53.2% (168), and 9.0% (71) by latex; 81.4% (713), 98.4% (311), and 93.9% (739) by cult

19 compared paired enzyme immunoassay (EIA) and latex agglutination (LA) assay results with 185 blood an

20 measured using lateral flow assays (LFA) and latex agglutination (LA) tests in 645 HIV-positive, ART-

21 Latex agglutination (LA) was used exclusively until Apri

22 edly more rapid and convenient than standard latex agglutination (LA), but has not yet been evaluated

23 ay can replace conventional testing based on latex agglutination (LA).

24 f performing a penicillin binding protein 2a latex agglutination (PBP-LA) assay directly on Bactec bl

25 h S. aureus were presumptively identified by latex agglutination (Staphaurex Plus; Remel, Lenexa, KS)

26 oli heat-labile enterotoxin reversed passive latex agglutination (VET-RPLA) assay.

27 Serotyping results were consistent between latex agglutination and mPCR/RLB for 331/387 (85.5%) iso

28 Isolates were serotyped by latex agglutination and multiplex PCR-reverse line blott

29 idence interval [CI], 89.0 to 92.2%) between latex agglutination and PneumoCaT, 95.2% (95% CI, 93.9 t

30 i, isolates (n = 1,135) were serotyped using latex agglutination and Quellung tests (LA/Q) as well as

31 moCaT, 95.2% (95% CI, 93.9 to 96.3%) between latex agglutination and the microarray, and 96.6% (95% C

32 in reaction assay (PCR) and reversed passive latex agglutination assay (RPLA), were selected for dete

33 raditional methods (culture, Gram stain, and latex agglutination for bacterial antigen) and qPCR for

34 r typing of GBS strains based on the Strep-B-Latex agglutination method and a novel multiplex PCR ass

35 The Strep-B-Latex agglutination method was the most widely used meth

36 nally negative with the Cryptococcal Antigen Latex Agglutination System (CALAS), were shown to become

37 Microbiological and latex agglutination techniques were performed to detect

38 olyacrylamide Gel Electrophoresis (PAGE) and Latex Agglutination Test (LAT) were utilized to determin

39 ere compared to the reference standard PBP2a latex agglutination test for detection of mecA-mediated

40 se negatives were identified using the PBP2' latex agglutination test kit (Thermo Fisher Scientific)

41 The sensitivities of the Oxoid PBP2' latex agglutination test were 85.7% with uninduced growt

42 thods using Gram staining and a GAS-specific latex agglutination test.

43 C. difficile latex agglutination, an enzyme immunoassay for toxins A

44 65 specimens were further tested by culture, latex agglutination, and/or polymerase chain reaction (P

45 owever, serotyping generally requires either latex agglutination, multiplex PCR with analysis of band

46 e between pneumococcal serotyping results by latex agglutination, whole-genome sequencing (WGS) with

47 ound between mecA PCR or Vitek II and PBP 2a latex agglutination.

48 rmined by multiplex PCR, multibead assay, or latex agglutination.

49 -time polymerase chain reaction, culture, or latex agglutination.

50 ed by polymerase chain reaction, culture, or latex agglutination.

51 ordance between real-time PCR serotyping and latex agglutination.

52 culture, polymerase chain reaction (PCR), or latex agglutination; strains were serotyped using PCR.

53 ed centrifugation-decantation step to remove latex aggregates before absorbance measurements, elimina

54 hy was used to enrich the caricain in papaya latex and an enzyme-linked immunosorbent assay test kit

55 ated: antibiotics (49.6%), muscle relaxants, latex and anesthetics (15%), nonsteroidal anti-inflammat

56 A mixture of latex and black ink was injected into the arterial syste

57 derwent a proportionately greater decline in latex and cardenolides relative to species-poor lineages

58 es the in vitro biological activities of fig latex and elucidates its possible mechanisms of action o

59 ion to medications, foods, insect stings, or latex and idiopathic reactions in the previous 10 years.

60 BUP1 is highly expressed in opium poppy latex and is localized to the plasma membrane.

61 imply cross-reactivity with tobacco, natural latex and plant-food-derived alcoholic beverages.

62 ermore, coalescence is promoted by repulsive latex and silica particles but inhibited by attractive c

63 nanoscale polymeric materials (polyurethane, latex and silicone), through entrapment, and subsequentl

64 n manufacturing high-value products, such as latex and superabsorbent polymers.

65 cay and nutrient cycling as well as tolerate latex and utilize resinous extractives.

66 are beta-lactam antibiotics, natural rubber latex, and other agents used in medical and perioperativ

67 Lower-value compounds, including limonene, latex, and PHB, require at least an order-of-magnitude g

68 d applications, including <$10/kg (limonene, latex, and polyhydroxybutyrate [PHB]), $10 to $100/kg (c

69 most potent resistance traits (cardenolides, latex, and trichomes) and an escalation of regrowth abil

70 ical traits to defense traits (cardenolides, latex, and trichomes) previously shown to impact herbivo

71 ed meningitis cases were tested via culture, latex, and/or rt-PCR; confirmed bacterial meningitis was

72 Chlorhexidine and latex are not part of routine testing in many centres.

73 Hymenoptera stings and natural rubber latex are the commonest triggers of OcAn.

74 y(methyl methacrylate) (-COOH) surfaces, AEX latex attachment is not stable over long periods in sign

75 Latex attachment on sulfonated COP surfaces are much str

76 ia a catheter with an air-filled thin-walled latex balloon inserted nasally or orally.

77 20 s) were produced by water inflation of a latex balloon placed into the duodenum.

78 Hg, 20 s) were induced by air inflation of a latex balloon surgically placed in the stomach.

79 , 20 s) was produced by water inflation of a latex balloon surgically placed into the duodenum.

80 A latex balloon was advanced into the right atrium.

81 labeled with a fluorescent antibody [2] or a latex bead [5], are seen to move longitudinally down the

82 urified SOF N-terminal peptide could promote latex bead adherence to HEp-2 cells and inhibit GAS inva

83 These latex bead compartments (LBCs) are encased in membrane a

84 Latex bead labeling of peripheral blood Gr1(lo) monocyte

85 Latex bead treatment did not affect adherence of trophoz

86 Latex bead treatment induced a significant infiltration

87 In vitro experiments examined the effect of latex bead treatment on the capacity of A. castellanii t

88 eomic analysis of the membrane fraction from latex bead-containing (LBC) phagosomes isolated from mac

89 taken to examine the mechanisms that mediate latex bead-induced resistance to Acanthamoeba keratitis.

90 In contrast, IgG-coated latex bead-induced ROS production in human polymorphonuc

91 and determine the role of macrophages in the latex-bead-induced resistance.

92 o the same degree that phagosomes containing latex beads acquired these markers after 1.5 h of infect

93 or bR did not occur around neutrally charged latex beads acting as cell surrogates, demonstrating tha

94 e, with the microcantilever technique, where latex beads affixed on silicon cantilevers were used as

95 osable dichlorodihydrofluorescein-conjugated latex beads and cyclic hydroxylamines with differing mem

96 nthesized alpha-1,2-trimannose cap sugars on latex beads and demonstrated that C57BL/6 mice coinocula

97 We illustrate this by using two sizes of latex beads and demonstrating the simultaneous detection

98 agocytic uptake of serum-coated or -uncoated latex beads and E. coli However, consistent with previou

99 een fibrinogen molecules covalently bound to latex beads and either wild-type alphaIIbbeta3 molecules

100 slowed the motility of phagosomes containing latex beads and endogenous pigment granules.

101 uction; and in vitro capacity to phagocytose latex beads and to migrate toward the chemokine (C-C mot

102 the ingestion process, cells were exposed to latex beads at 15-20 degrees C, which allows engulfment

103 uMC generate ROS upon exposure to IgG-coated latex beads by 5-LO and COX; and ROS appear to have no s

104 Preferential uptake of latex beads by follicle-associated epithelium indicates

105 uptake of nonpathogenic Escherichia coli and latex beads by nonphagocytic mammalian cells.

106 hly scattering metal-coated polystyrene (PS) latex beads by using solvent-controlled heterocoagulatio

107 tent with a direct role of the minor pilins, latex beads coated with SpaB or SpaC protein bind specif

108 IgG-coated latex beads did stimulate ROS production in huMC, and in

109 endocytic pathway do not permit endocytosed latex beads from reaching terminal lysosomes in an anter

110 n not expressed by Pn, but not with 1-microm latex beads in adjuvant.

111 phoP(+) or phoP mutant Y. pestis strains or latex beads in J774A.1 macrophages.

112 ults indicate that intracorneal injection of latex beads induces a remarkable resistance to Acanthamo

113 somes with phagosomes containing scintillant latex beads led to light emission in a reaction requirin

114 o microscopy by tracking 10 mum, polystyrene latex beads mixed into the solution.

115 s between micrometer sized particles, either latex beads or red blood cells (RBCs), create aggregates

116 CD103(+) DCs were able to ingest and traffic latex beads or soluble antigen.

117 during intracellular transport, we examined latex beads phagocytosed into living mammalian macrophag

118 The uptake of latex beads showed that M-cell function was similar in a

119 osomes were specifically labeled with 800-nm latex beads that were conjugated with streptavidin and A

120 In fibroblasts plated on collagen-coated latex beads there are large increases of [Ca(2+)]i, time

121 Model phagosomes harboring latex beads undergo a coordinated Rab5-Rab7 exchange, wh

122 gn, target exosomes were firstly captured by latex beads via aldimine condensation, followed by bio-r

123 ated epithelium, transcytosis of fluorescent latex beads was evaluated with confocal microscopy.

124 Negatively charged, 500 nm latex beads were used in multiple-particle tracking expe

125 athogen mimics (namely glycodendrimer-coated latex beads with acid-labile linkers) were synthesized.

126 Neutrophil depletion did not abrogate the latex beads' protective effect.

127 crophagicidal drug clodronate eliminated the latex beads' protective effect.

128 in vitro and opsonized particles (IgG-coated latex beads) in vitro and in vivo in intact mice.

129 polymerized from the surface of mDia1-coated latex beads, and deformed by manipulating both ends thro

130 th increased uptake of Ig-opsonized targets, latex beads, and fluid phase markers, and it was accompa

131 ts, up-converting phosphor technologies, and latex beads, between others) in LFBs.

132 re stably attached to 1 mum (bacteria-sized) latex beads, but not directly linked to each other, in c

133 during uptake of diverse targets, including latex beads, Escherichia coli, Salmonella typhimurium, a

134 albumin or ovalbumin), amino-functionalized latex beads, or dextran polymer and arrayed at the surfa

135 e optical labels such as gold nanoparticles, latex beads, or fluorescent nanoparticles to visualize t

136 Also analyzed were phagocytized black latex beads, phagocytized melanosomes pretreated to simu

137 ILC3s can take up latex beads, process protein antigen, and consequently p

138 is factor alpha/fibrinogen, immunoglobulin G latex beads, Staphylococcus aureus, formyl-methionyl-leu

139 , having been tethered to glass or marked by latex beads, the rotation of the internal components has

140 ed by motors driving tethered cells or 1-mum latex beads.

141 agocytosis of apoptotic neutrophils, but not latex beads.

142 ch as viruses, pathogenic bacteria, and even latex beads.

143 reatment did not affect uptake of IgG-coated latex beads.

144 served following ingestion of oxidized OS or latex beads.

145 hagocytosis of M. tuberculosis or TDM-coated latex beads.

146 y their internalisation of 1 mum fluorescent latex beads.

147 developmental role of laticifer cells in the latex-bearing plant Euphorbia lathyris.

148 for specific ecophysiological adaptations of latex-bearing plants in natural environments.

149 To address these challenges, polymer latex binders with diverse particle morphologies have be

150 ted latex (n = 9) catheters with silicone or latex catheters.

151 e channels support a processive mechanism of latex cleavage.

152 hromatograph (OTIC) that uses anion exchange latex coated 5 mum radius silica and 9.8 mum radius poly

153 The chromatographic behavior of the AEX latex-coated COP capillaries are greatly dependent on th

154 With such a suppressor coupled to an AS18 latex-coated surface-sulfonated cyclo-olefin polymer (CO

155 After AS18 latex coating, the strong base anion exchange capacity w

156 The spatial deposition of polystyrene latex colloids (d = 1 mum) at rough mineral and rock sur

157 nt cell wall polymers, in the utilization of latex components and in interspecific interactions betwe

158 thors compared the effectiveness of the male latex condom and the female polyurethane condom by asses

159 reover, the identification of laticifer- and latex-deficient mutants (pil mutants) allowed for the id

160 ion appears to be largely driven by enhanced latex delivery to leaves following damage.

161 ticles that account for 93% of rubber in the latex (despite constituting only 6% of total rubber part

162 We assessed the effect of provision of latex diaphragm, lubricant gel, and condoms (interventio

163 contaminated with opium alkaloid-containing latex, e.g. during harvesting.

164 Serum hs-CRP was measured by latex-enhanced immunoturbidimetric assay.

165 ) and serum amyloid A (SAA) were measured by latex-enhanced nephelometry.

166 om blacktip shark skin prepared using papaya latex enzyme with different degrees of hydrolysis (DHs:

167 is the major enzyme used in cheesemaking but latex enzymes are also used.

168 es of laticifer metabolism in the context of latex exploitation.

169 Stem cDNA libraries and latex extracts of eight opium poppy cultivars displaying

170 In cucurbits, phloem latex exudes from cut sieve tubes of the extrafascicular

171 track in vivo changes or modified to reduce latex flow to damaged areas.

172 s able to catalyze the oxidative cleavage of latex for biodegradation.

173 From the results, it is determined that latex from Calotropis procera can be used as an alternat

174 The stable latex from the ab initio emulsion ATRP had a particle si

175 The risk associated with latex glove use was not apparent after 2000.

176 was not noticed, except for sporadic use of latex gloves and surgical masks.This is believed to be t

177 R, 2.02; 95% CI, 1.20-3.40), use of powdered latex gloves between 1992 and 2000 (OR, 2.17; 95% CI, 1.

178 These findings suggest Ficus carica latex has the potential to be used in the development of

179 eactive protein levels were assessed using a latex immunoassay from archived maternal serum specimens

180 ally stabilized poly(2-vinylpyridine) (P2VP) latex in dilute aqueous solution) and also the spontaneo

181 he analysis of aroma component of mango sap (latex) in nine Pakistani varieties that are Anmol, Began

182 Our data shows that fig latex inhibits properties that are associated with HPV-p

183 Latex injections and high frequency ultrasound (50 MHz)

184 an 10 biorefineries, while global demand for latex is equivalent to nearly 180 facilities.

185 normally refined out of the opioids that the latex is typically collected for, hence its presence in

186 r phenotypic serotyping, we used a 13-valent latex kit (Statens Serum Institut [SSI], Denmark).

187 ent a novel assay scheme that uses two-color latex labels for rapid multiplex detection of IgG/IgM.

188 e selectively targeted by model hybrid lipid-latex (LiLa) nanoparticles bearing phagocytic signals.

189 We investigated the fate of latex (LX) particles that were introduced into mice intr

190 rogel by disintegrating an assembled polymer latex made from poly(ethyl acrylate-co-methacrylic acid)

191 FG) or green (GFB) and red (RFB) fluorescent latex microbeads were injected iontophoretically or by p

192 retrograde tracer, red (RFB) or green (GFB) latex microbeads, was injected into the gustatory PBN un

193 Latex micrometric beads are manipulated by optical tweez

194 OCT latex microsphere concentration measurements were highly

195 nterior segment OCT system was used to image latex microsphere suspensions in vitro and the AC of uve

196 ducted with bromide and carboxylate-modified latex microspheres (20, 200, and 500 nm diameter).

197 Latex microspheres and ac cells were visualized as refle

198 rogradely labeled with rhodamine fluorescent latex microspheres and subsequently intracellularly fill

199 ripping analysis of gold nanoparticle-loaded latex microspheres as a signal-amplified hybridization t

200 ptake of colloidal gold particles as well as latex microspheres by HeLa cells.

201 apacity of iron-oxide coated sands to remove latex microspheres from water revealed that microsphere

202 .1-4.2 mum) carboxylate-modified polystyrene latex microspheres that represented virus- to protozoa-s

203 e tracing with rhodamine-labeled fluorescent latex microspheres was used to determine whether the hyp

204 c targets, distinct green or red fluorescent latex microspheres were injected into the PGi and the CN

205 Iron oxide surface patches on latex microspheres were selectively wetted with liquid l

206 oxin B subunit, Fluoro-Gold, and fluorescent latex microspheres) into the thalamus to estimate the nu

207 colloidal gold nanoparticles and fluorescent latex microspheres.

208 gradient chromatography, using ion-exchange, latex-modified, open tubular and packed monolithic colum

209 The latex monodisperse polystyrene (PS) colloids are importa

210 one-coated silicone (n = 3) or silver-coated latex (n = 9) catheters with silicone or latex catheters

211 t higher concentrations, detergent micelles, latex nanobeads or lipoprotein particles inhibit Lp-PLA(

212 , lipoprotein particles and even polystyrene latex nanobeads.

213 The latex nanoparticle was electrostatically attached to car

214 s to decreased retention of the carboxylated latex nanoparticle.

215 The RPS provided diameters of monodisperse latex nanoparticles agreed within the experimental error

216 c nanoparticles, carbon-based nanomaterials, latex nanoparticles and liposome nanoparticles) for dete

217 The utility of novel latex nanoparticles as pseudostationary phases for elect

218 Measured densities for latex nanoparticles of 160-300 nm in diameter were in th

219 ed with 65-nm-diameter anion exchanger (AEX) latex nanoparticles that attach electrostatically.

220 agnitude lower than those of the polystyrene latex nanoparticles, likely as a result of steric stabil

221 C-MWNT filtration experiments using carboxyl latex nanoparticles.

222 ure the density of monodispersed polystyrene latex nanoparticles.

223 (CdTe and CdSe) and carboxylated polystyrene latex (nPL) as a model nanoparticle using saturated labo

224 t Hevea brasiliensis (rHev b) natural rubber latex (NRL) allergen components have been developed to a

225 rs and 33 subjects exposed to natural rubber latex (NRL), all with work-related allergic symptoms.

226 thocyanidin oligomer extracted from the bark latex of Croton lechleri, is in clinical trials for secr

227 clotting activity has been purified from the latex of Euphorbia neriifolia by anion exchange and size

228 s such as morphine and thebaine occur in the latex of Papaver somniferum varieties.

229 tionate glycyl endopeptidase from the papaya latex of Red Lady and Khack Dum cultivars.

230 kaloid found endemically and uniquely in the latex of the opium poppy.

231 , Eya1 and Six1 compound mutants at E17.5 by latex paintfilling.

232 Latex paints containing copper-glass ceramic powder exhi

233 The magnetic label consists of a latex particle of mean diameter 441+/-6 nm, bearing magn

234 by measurement of NIST-certified polystyrene latex particle standards.

235 croscopy was used to prepare digital maps of latex particle trapping patterns (eight per lung).

236 After 24 hrs, 4-microm-diameter fluorescent latex particles (2 x 10(8)) were infused into the pulmon

237 ted with nanosized (20 nm) carboxyl-modified latex particles (20nCL) and carboxyl-modified CdSe/ZnS q

238 d (1 mum) sulfate-functionalized polystyrene latex particles (designated as 20 nSL and 1 mSL, respect

239 to internalize LPS-coated, but not uncoated, latex particles and because MD2/TLR4-transfected human e

240 Spherical latex particles are uniformly deposited on glass slides

241 abilized polystyrene latex; remarkably, such latex particles can be readily prepared by aqueous emuls

242 ynamic volume from calibrations with polymer latex particles in flow-FFF are compared to calibrations

243 ified through film-formation of soft polymer latex particles on the surface of the polymersome, hereb

244 In the second method, latex particles were codeposited with the silica by spin

245 C-albumin, Lsr-F, or fluorescent polystyrene latex particles were electrosprayed from aqueous buffer

246 lector interface; namely, on bare Al2O3, the latex particles were rigidly attached as compared to the

247 onstrated for a mixture of three polystyrene latex particles with different sizes as well as for the

248 In this technique latex particles, GO nanosheets, olive oil, ethanol, and

249 Using latex particles, silica particles and carbon nanotubes a

250 d using different-sized standard polystyrene-latex particles.

251 as not detected in phagolysosomes containing latex particles.

252 ntaining either silica particles or nontoxic latex particles.

253 olayer coverage of the surface by individual latex particles.

254 structures are controlled by the size of the latex particles.

255 cross-react with allergens in natural rubber latex, peanuts and grass and tree pollens.

256 Casein hydrolysis by Plumeria rubra latex peptidases (PrLP) was negligible.

257 The latex peptidases from Calotropis procera (CpLP), Cryptos

258 oteins were more resistant to proteolysis by latex peptidases; however, heat pretreatment of the whey

259 at of the non-articulated laticifer cells in latex plants, suggesting a common evolutionary origin.

260 organic solvent-based coatings by waterborne latex polymer coatings has substantially renovated the c

261 ional pattern is significantly correlated to latex production level.

262 n lectin, which are important properties for latex production.

263 of new proteins (m-type thioredoxins, major latex protein-like protein, ULTRAVIOLET-B RESISTANCE8 ph

264 A Ficus carica L. latex proteinase preparation was investigated for its ab

265 morphine were among the most abundant active latex proteins despite a limited occurrence in laticifer

266 is required to establish the involvement of latex proteins in sEA as a potential risk factor.

267 Plant modification for latex reduction inhibited an induced cardenolide respons

268 ared using sterically stabilized polystyrene latex; remarkably, such latex particles can be readily p

269 Latex serotyping is accurate in identifying vaccine sero

270 increased VT detection by 31.5% over that by latex serotyping.

271 omposite of a pliable rubber tube and a soft latex sheet is consistent with this mechanism and produc

272 CO2-responsive materials including polymers, latexes, solvents, solutes, gels, surfactants, and catal

273 this is the first in planta demonstration of latex-specific CPT activity in rubber biosynthesis.

274 od lengths from hydrodynamic models based on latex sphere calibrations.

275 M(w)= 65000 Daltons, diameter = 8 nm) and to Latex spheres (diameter = 900 nm).

276 nt tracer slurry and fluorescent polystyrene latex spheres (PLSs).

277 method was developed using 2-um polystyrene latex spheres (PSLs) to investigate skin contamination (

278 f PEG surface packing on monodisperse 200 nm latex spheres indicates that the size of the hydrophobic

279 ing emissions, and monodispersed polystyrene latex spheres under controlled laboratory conditions and

280 We use latex spheres with diameters ranging from 190 to 780 nm

281 s detected in the whole stem, but not in the latex subproteome.

282 issues tested (leaves, stem, bark, xylem and latex), suggesting that HbXIP2;1 could take part in a wi

283 oducing stable PFS-poly(methyl methacrylate) latex suspensions.

284 olymerisation at the forefront of industrial latex synthesis.

285 ficantly outperformed commercially available latex tests (sensitivity for both latex tests, <15%) whe

286 available latex tests (sensitivity for both latex tests, <15%) when it was used directly with broth

287 unts of high-quality natural rubber in their latex, the milky cytoplasm of specialized cells known as

288 ability of the enzyme caricain (from papaya latex) to detoxify gliadin in whole wheat flour and deve

289 otgun proteomics performed on whole-stem and latex total protein extracts generated 2031 and 830 dist

290 This apparatus consisted of an 8-mm-diameter latex tube placed in a tissue-mimicking fluid.

291 The latex used contained a significant, additional amount of

292 ydimethylsiloxane Sylgard 184, polyurethane, latex, VHB and Ecoflex.

293 oup bacteriuria rate, control catheter type (latex vs. silicone), and patient sample (urology vs. oth

294 foods, 12 respiratory allergen sources, and latex was tested by using skin prick test and ImmunoCAP.

295 ge isoforms of two key O-demethylases in the latex were revealed by two-dimensional immunoblot analys

296 Food, drugs, stinging insects, and latex were the most commonly identified triggers.

297 of these plants is Ficus carica, whose fruit latex, when applied on HPV-induced skin warts, has shown

298 ntibodies specific for proteins derived from latex, which has traditionally been ubiquitous to the ho

299 ivity (90 U g(-1) polymer) was observed with latex, while highest entrapment efficiency (93%) was obs

300 A library of 32 polystyrene copolymer latexes, with diameters ranging between 53 and 387 nm, w