ライフサイエンスコーパス: nylon

1 t woods, and comparable to polypropylene and nylon.

2 RNA is electroblotted to positively charged nylon.

3 olution enables the separation of cotton and nylon.

4 particle (<3 um) MNPs composed of rubber and nylon.

5 rming Hoxa5's pivotal role in the effects of nylon.

6 quencies corresponding to thermally extruded nylon.

7 high tensile strength such as polyester and nylon.

8 e determined for the calibration of blood on nylon.

9 of differentiating among different types of nylons.

10 approach toward a cleaner route to recycling nylons.

11 pproaches to degrade robust plastics such as nylons.

12 disease was induced by placing a sterilized nylon (000) thread ligature around the cervix of the sec

13 er patch (CPCW; n = 5), or three interrupted nylon 10-0 sutures (n = 5).

14 eight nanocomposite of bismuth triiodide and nylon-11, are discussed in detail.

15 Using nylon 12 as an example matrix, we further demonstrate th

16 onductivity, from 0.205 Wm(-1)K(-1) for neat nylon 12 to 0.305 Wm(-1)K(-1) for a 4 wt% C-coated ZnO c

17 sotropic NdFeB powder and 35 vol% polyamide (Nylon-12).

18 Thus, the nylon-3 backbone is homologous to the alpha-amino acid-b

19 re we describe in vitro analysis of selected nylon-3 copolymers against Clostridium difficile, an imp

20 We have recently shown that sequence-random nylon-3 copolymers can mimic favorable properties of hos

21 Binary nylon-3 copolymers containing cationic and hydrophobic s

22 evaluated a small library of sequence-random nylon-3 copolymers for the ability to render surfaces at

23 Overall, these findings suggest that nylon-3 copolymers may be useful for combatting C. diffi

24 Several of the nylon-3 copolymers supported cell adhesion and morpholog

25 prompted us to prepare and evaluate ternary nylon-3 copolymers that contain a modestly polar but unc

26 The nylon-3 copolymers that were most effective at promoting

27 nt of an N-terminal octadecanoyl unit to the nylon-3 copolymers, inspired by the post-translational m

28 develop resistance to the new antibacterial nylon-3 copolymers.

29 m-free conditions demonstrated that specific nylon-3 derivatives supported cell adhesion independentl

30 Polymers in the nylon-3 family contain subunits derived from beta-amino

31 These materials, members of the nylon-3 family, are prepared by ring-opening polymerizat

32 This molecular-level homology suggests that nylon-3 materials might be intrinsically protein-mimetic

33 of the properties and applications of these nylon-3 materials.

34 The best nylon-3 polymer (poly-betaNM) is superior to the antifun

35 Nylon-3 polymers (poly-beta-peptides) have been investig

36 inspired by host-defense peptides to develop nylon-3 polymers (poly-beta-peptides) that are toxic tow

37 ures for achieving this activity profile for nylon-3 polymers and many other antimicrobial polymers.

38 These nylon-3 polymers are nonhemolytic.

39 Here we report nylon-3 polymers based on a novel subunit that display p

40 The best of the nylon-3 polymers display promising in vitro surfactant a

41 Amphiphilic nylon-3 polymers have been reported to mimic the biologi

42 Here we show that these nylon-3 polymers have strong and selective activity agai

43 We describe nylon-3 polymers that support in vitro culture of endoth

44 We previously developed nylon-3 polymers with potent activity against planktonic

45 ture-activity relationships among antifungal nylon-3 polymers, we have now identified readily prepare

46 and spreading were observed as a function of nylon-3 subunit identity and proportion.

47 sually indistinguishable fibers consisted of nylon 361 dyed with acid yellow 17 and acid yellow 23, a

48 Hybrid nylon 4/6 overcomes trade-offs in (de)polymerizability a

49 Here, we introduce a hybrid nylon, nylon 4/6, based on a bicyclic lactam composed of both H

50 ng of single-walled carbon nanotubes (SWNTs)-nylon 6 (PA6) fibers by the in-situ polymerization of ca

51 PAMF can be copolymerized with conventional nylon 6 and is chemically recyclable.

52 (SWNT)-polymer interfacial interaction in a nylon 6 graft copolymer composite which is based on the

53 ished through a state space framework, using Nylon 6 thin films in a humidity gradient as an experime

54 m monomer's reactivity and the resulting gem-nylon 6's properties are highly sensitive to the substit

55 methyl groups onto e-caprolactam (monomer of nylon 6) from the alpha to e positions, both the redesig

56 ), polypropylene (PP), polystyrene (PS), and nylon 6,6 (N66) through chemical computation.

57 Electrospun nylon 6,6 fibers incorporating polypyrrole (PPy) molecul

58 esults suggest that components leaching from nylon 6,6 may especially harm developing airways and/or

59 y in the amorphous region of semicrystalline nylon 6.

60 from inferior to far superior to the parent nylon 6.

61 eacts with surface amide groups of polyamide nylon 6/6 to give (eta(2)-amidate)zirconium complexes in

62 speeds using an LLTE-optimized foot made of Nylon 6/6, their daily-use foot, and a standardized comm

63 ion products revealed that the major peak of nylon-6 (m/z 10,000-25,000) shifted to a smaller range,

64 ify eight compounds resulting from enzymatic nylon-6 (PA6) hydrolysis.

65 The ever-increasing industrial demand for nylon-6 (polycaprolactam) necessitates the development o

66 We examined the enzymatic hydrolysis of nylon-6 by the thermostable NylC mutant.

67 tes the behavior of PA6/HNTs nanocomposites (nylon-6 incorporating halloysite nanotubes) during incin

68 at is responsible for the degradation of the nylon-6 industry byproduct.

69 alysis and imprint imaging using electrospun nylon-6 nanofiber mats are demonstrated for various anal

70 u@BSA (BSA, bovine serum albumin), coated on Nylon-6 nanofibers were used for these measurements.

71 olyethylene, polypropylene, polystyrene, and nylon-6 particles, which frequently occur in the water c

72 The presence of caprolactam, a precursor of Nylon-6, among those synthetic polymers which are widely

73 oplastic types (polyethylene, polypropylene, nylon-6, polyvinyl chloride, polystyrene).

74 system comprises millimeter-scale Teflon and Nylon-6,6 (spherical or cylindrical) beads (approximatel

75 Bio-based unsaturated nylon-6,6 (unsaturated polyamide-6,6) was finally obtain

76 arious dielectric materials, such as Teflon, Nylon-6,6 and rubber.

77 The surface morphology of the porous nylon-6,6 films increased the number of adsorption sites

78 eve iPPO could be a suitable replacement for nylon-6,6 in environmentally susceptible applications.

79 o convert glucose into bio-based unsaturated nylon-6,6 is reported.

80 different polymer surfaces: flat and porous nylon-6,6 thin films.

81 ate esters, precursors for the production of Nylon-6,6, in excellent yield from biomass-derived sourc

82 dening afforded an UTS comparable to that of nylon-6,6.

83 Both polyethylene and Nylon 66 were successfully decorated on single-walled ca

84 jor plastics polyethylene, polypropylene and nylon-66 was addressed by developing a rigorous correcti

85 Cl-coated denuders with that collected using nylon and cation exchange membranes in the laboratory an

86 Thanks to the low thermal conductivity of nylon and its anisotropic thermal expansion, bending occ

87 between amine and hydrolyzed amide groups of nylon and MAH groups on the MAHgEO at the buried interfa

88 The interfacial chemical reaction between nylon and MAHgEO greatly improved the adhesion of these

89 rfered with the adsorption of plasmid DNA to nylon and nitrocellulose membranes.

90 rete length fractions (50-600 mum) of common nylon and polyester fibers are investigated, respectivel

91 Ps), styrene acrylonitrile, polystyrene, and nylon and polyethylene terephthalate fibers 10-50 mum wi

92 The levels of nylon and polyethylene terephthalate particles released

93 articles is matched to the original teabags (nylon and polyethylene terephthalate) using Fourier-tran

94 opposite electrostatic charges on the larger Nylon and Teflon beads, but leaves the smaller PMMA bead

95 pid: discharge of flat slabs of like-charged Nylon and Teflon pieces is completed on a single contact

96 epolymerization of conventional, widely used nylons and polyamides, in general.

97 harged polymeric beads, e.g., polyamide 6/6 (Nylon) and polyoxymethylene (Delrin), and negatively cha

98 Samples of polyethylene, nylon, and nylatron, which are mainly used in items such

99 , and used for the production of lubricants, nylon, and paints.

100 ere prepared by dip-coating acrylic, cotton, nylon, and polyester fabrics from solutions of diluted r

101 ants, including polyethylene, polypropylene, nylon, and polystyrene, also in the presence of a thin e

102 Aliphatic polyamides, or nylons, are typically highly crystalline and thermally r

103 een 2% and 10% of the genes probed in a cDNA nylon array were differentially regulated within DCs tha

104 on or post-mock infection were hybridized to nylon arrays printed with 2,556 mouse genes.

105 Of the 1176 genes on the nylon arrays, the expression of 37 was upregulated and t

106 al cDNA probes were hybridized to mouse cDNA nylon arrays.

107 requencies, indicating chain scission of the nylon backbone.

108 ed pretrial, spiked with diesel, placed into nylon bags into the infiltrators, and removed after 3 mo

109 largest quantities included caprolactam from nylon-based and imitation wood and brick filaments (rang

110 Glass- and nylon-based arrays of PCR products were prepared and use

111 using acidic dyes commonly employed to color nylon-based fibers, as well as extracts from dyed nylon

112 pic thermal expansion, bending occurs when a nylon beam is differentially heated.

113 found to be the main contributor while both nylon bristles and elastomers could act as absorptive si

114 WJ and Nylon brush were most effective in reducing CFU counts (

115 und biofilms for 30 seconds each: (1) rotary nylon brush; (2) Ti brush; (3) water-jet on high and (4)

116 red with hand curets, ultrasonic devices, or nylon brushes even when low energy parameters and low po

117 Hand curets, nylon brushes, and the ultrasonic device showed limited

118 eted starting materials for the synthesis of nylon building blocks.

119 d inflammation through the implantation of a nylon catheter can be used to create a subcutaneous cavi

120 al mass consisted of the sum of polystyrene, nylon, cellulose acetate, polyethylene terephthalate, an

121 The nylon chambers and their contents were well-tolerated by

122 At 95 C, degradation of the nylon chemical structure was observed via the disappeara

123 EL and its derivatives were most abundant in nylon clothes (median 32,800 ng/g), followed by organic

124 of magnitude higher than those from the non-nylon clothes and decreased by more than half for washed

125 MEL and PFAS through dermal absorption from nylon clothes were three orders of magnitude higher than

126 rganoids, suggesting long-lasting effects of nylon components on epithelial cells.

127 tapered polyurethane inserts with a brushed nylon cover (n = 119); or to wear their usual footwear (

128 Each chamber had a nylon cylinder encased by sleeves of aluminum and polyca

129 PA6 film depolymerization, with significant nylon deconstruction activity appearing rare.

130 giogenesis assay was performed by implanting nylon discs impregnated with an angiogenic stimulator (b

131 ity and performance properties of the parent nylons, exhibiting both excellent polymerization and fac

132 Inhibiting Hoxa5 during nylon exposure restored airway organoid formation, confi

133 poly(vinylidene fluoride) nanofiber film and nylon fabric, the self-charging air filter-based mask ex

134 textile (e-textile) sensor was fabricated on Nylon fabric, which is resistant to standard washing cyc

135 y between the IR spectra of blood solids and nylon fabrics, no satisfactory IR DLs were determined fo

136 ay performed on a cotton thread knotted to a nylon fiber bundle, both of which are precoated with rec

137 Nylon fiber is the suspected cause of this condition.

138 significantly altered in copepods exposed to nylon fibers (ANOVA, P < 0.01) resulting in a nonsignifi

139 The nylon fibers appear to be from human fishing activities,

140 ithelial cells isolated from mice exposed to nylon fibers or leachate also formed fewer airway organo

141 In addition, mice received one dose of nylon fibers or nylon leachate, and, 7 days later, organ

142 ent confirmed bioavailability of 10 x 40 mum Nylon fibers to brine shrimp (Artemia sp).

143 In this study, polyester and nylon fibers were precisely cut to relevant environmenta

144 -based fibers, as well as extracts from dyed nylon fibers.

145 ficial muscles are made from highly oriented nylon filaments.

146 ction between two solid polymer materials, a nylon film and a maleic anhydride (MAH) grafted poly(eth

147 resolved single molecule alpha-LA binding to nylon films were quantified by a monolayer adsorption mo

148 Nylon filter arrays with these 2,102 ESTs from proteoid

149 lopment dataset that we have generated using nylon filter arrays.

150 th two filter configurations including (1) a nylon filter plus an acid-impregnated cellulose filter a

151 was analyzed over 3 weeks using high-density nylon filter-based cDNA arrays.

152 Nylon filters containing more than 72000 cDNAs from a ga

153 y a simple dilution and filtration step, and nylon filters should be avoided since some organic acids

154 Nylon filters were found to collect efficiently and reta

155 cDNA probes to cDNA libraries carried on six nylon filters, each containing duplicate spots from 18,4

156 osomal regions was selected and spotted onto nylon filters.

157 nts would best utilize the NaCl solution and Nylon filters.

158 isease has been diagnosed in workers at five nylon flock facilities in three different states and a C

159 nic interstitial pneumonitis associated with nylon flock processing, workshop participants recommende

160 ctive findings after attempting to return to nylon flock work.

161 swab was used for collection to that when a nylon flocked swab was used for collection.

162 A nylon flocked swab/universal transport medium collection

163 polyurethane foam swabs perform better than nylon flocked swabs for the collection of secretions fro

164 The Copan ESwab is a new nylon-flocked swab designed to optimize specimen collect

165 Work in the nylon flocking industry poses substantial risk for a pre

166 Two young men working at a nylon flocking plant in Rhode Island developed interstit

167 d in the production of plastics, polyesters, nylons, fragrances, and medications.

168 s (ANOVA, P = 0.07), and copepods exposed to nylon granules showed nonsignificant lipid accumulation

169 [SD], 60.3% [11.1%] to 80.2% [3.1%]), with a nylon hosiery sleeve placed over the procedure mask prod

170 we propose that NylC should be designated as nylon hydrolase (or nylonase).

171 e screen 40 potential natural and engineered nylon-hydrolyzing enzymes (nylonases), using mass spectr

172 ormational changes at the negatively charged nylon interface are quantified as a function of salt con

173 d functional groups leads to a stronger SWNT-nylon interfacial interaction, as reflected in greater v

174 expansion include the Beehler pupil dilator, nylon iris hooks, and pupillary rings, including the Per

175 The analysis of C.I. Acid Blue 25 in nylon is presented as a representative example.

176 n, mice received one dose of nylon fibers or nylon leachate, and, 7 days later, organoid-forming capa

177 ed adipic acid analogs to generate branched, nylon-like polymers with reduced crystallinity.

178 Nylon/LLDPE pouches containing N2 are the most suitable

179 sample, was directly analyzed at the buried nylon/MAHgEO interface at the molecular level in real ti

180 ion products was also observed at the buried nylon/MAHgEO interface.

181 CoOxH-GO on a positively charged and porous nylon membrane (N(+)M).

182 ized in low melting temperature agarose on a nylon membrane and attached to the common end of a bifur

183 fabricated entirely by screen-printing on a nylon membrane and feature two assay zones which are loc

184 Saccharomyces cerevisiae is transferred to a nylon membrane and probed with anti-TMG antibodies.

185 cterial primers was transferred to a charged nylon membrane and probed with digoxigenin-labeled synth

186 ndependently on the same strips of uncharged nylon membrane containing genomic DNA.

187 sed to detect hyaluronan after transfer to a nylon membrane following gel electrophoresis.

188 ncy of the target analyte, the benefits of a nylon membrane slide and the reusability of sample slide

189 mized cDNA array system based on established nylon membrane technology has been developed for conveni

190 DNA covalently bound to an uncharged nylon membrane was used for consecutive amplifications o

191 es for the release of GOM compounds from the nylon membrane were different for HgO versus HgBr2 and H

192 A disposable 31 mm x 19 mm nylon membrane with 35 sensing areas with 7 commercial c

193 notion in mind, high-density DNA microarray nylon membrane with colorimetry detection was used to pr

194 n resolved in an agarose gel, blotted onto a nylon membrane, and probed with an alkaline phosphatase-

195 Nylon membrane-based cDNA microarrays were used to profi

196 the hybridization of amplified sample DNA to nylon membrane-immobilized oligonucleotides whose sequen

197 cific oligonucleotide probe immobilized on a nylon membrane.

198 cross-linking of the separated molecules to nylon membrane.

199 of physical parameters for a chitosan-coated nylon membrane; these predictions can also be applied ge

200 otent progenitor (MPP) cells were arrayed on nylon membranes (macroarray or high-density array), and

201 open reading frames (ORFs) were prepared on nylon membranes and employed to assess gene expression i

202 of the PCR products were applied to separate nylon membranes and hybridized with 32P-labeled oligonuc

203 RaSH cDNAs were spotted (microarrayed) on nylon membranes and probed with temporally isolated reve

204 brary clones were arrayed at high density on nylon membranes and screened with mixed cDNA probes gene

205 This study uses pepsin-containing nylon membranes as controlled proteolysis reactors for m

206 n both nitrocellulose and positively charged nylon membranes by conventional streptavidin-conjugated

207 s of reduced complexity for hybridization to nylon membranes containing 588 cDNAs of known identity.

208 In this study, GOM recovery on nylon membranes decreased with high humidity and ozone c

209 nutrition-related cDNAs that were arrayed on nylon membranes for further analysis.

210 uble carbodiimide, EDC, to cross-link RNA to nylon membranes greatly improved the detection of small

211 We have used nylon membranes spotted in duplicate with full-length po

212 zation of radiolabeled cDNA to spot blots on nylon membranes was compared to hybridization of fluores

213 The binding of viral DNA to nylon membranes was found to be inhibited by magnesium i

214 A of bacteriophages bound to charge-modified nylon membranes was identified by the hybridization of s

215 High-density DNA microarray nylon membranes were used to explore gene expression and

216 aced conventional UV-cross-linking of RNA to nylon membranes with a novel, 1-ethyl-3-(3-dimethylamino

217 ion surfaces, including KCl-coated denuders, nylon membranes, and cation-exchange membranes, was inve

218 ere PCR amplified, quantitated, spotted onto nylon membranes, and fixed by UV cross-linking.

219 agarose gel electrophoresis, transferred to nylon membranes, and hybridized with the appropriate dig

220 collection of GOM on KCl-coated denuders and nylon membranes, both currently being applied to measure

221 phoresed in agarose gels, and transferred to nylon membranes.

222 ent at immobilizing small RNA of 20-40 nt on nylon membranes.

223 d on glass slides and cDNA arrays printed on nylon membranes.

224 ere amplified, quantitated, and spotted onto nylon membranes.

225 ones arrayed as Escherichia coli colonies on nylon membranes.

226 der typical sedation, six rhesus monkeys had nylon mesh cylinders containing either DFDBA or FDBA imp

227 Oral neutrophils were isolated through nylon mesh filters of different pore sizes (40 to 10 mum

228 Nylon mesh substrates were derivatized to include VICAT(

229 or visualizing tumor cell migration across a nylon mesh-supported gelatin matrix.

230 melanoma tumor samples cultured on a 74-mum nylon mesh.

231 e pipet tips, filter paper, tooth picks, and nylon mesh.

232 with moisture-responsive flaps composed of a nylon/metal heterostructure, which can simultaneously re

233 of damage to gut tissues after ingestion of nylon MF or Spartina spp.

234 The RNA was then labeled and used to probe nylon microarray filters that contained a total of 9184

235 Here, we show no apparent effects of nylon microfiber (MF) ingestion on the gut microbiome or

236 ene microspheres (diameters 19-1000 mum) and nylon microfibers (lengths 75-1075 x diameter 30 mum), a

237 Fluorescent labelling of Nylon microfibers with Nile Red facilitated imaging.

238 the addition of ~50 microplastics mL(-1) of nylon microplastic granules (10-30 mum) or fibers (10 x

239 e, bench-top approach to covalently tethered nylon-MOF polymer composite materials through an interfa

240 which a synthetic parasite (a small piece of nylon monofilament) was encapsulated and melanized (r =

241 oscope, a gelatin-coated suture (6-0 sterile nylon monofilament) was gently inserted into the lumen o

242 Here, we introduce a hybrid nylon, nylon 4/6, based on a bicyclic lactam composed of

243 more in volume, are readily immobilized on a nylon or polyester matrix.

244 = 24) and +/-0.6 per mille ( n = 9) for the nylon plus citric acid impregnated cellulose filter and

245 f paper substrates including nitrocellulose, nylon, poly(vinylidene fluoride), and cellulose.

246 onitrile butadiene styrene, polylactic acid, nylon, polycarbonate, polyethylene terephthalate, and ch

247 Nylon, polyethylene terephthalate and polypropylene fibe

248 two oceans, we observed nanoplastics made of nylon, polystyrene, and polyethylene terephthalate-all c

249 erence between the core fiber (silver-coated nylon/polyurethane) and the shell (wrinkled polyvinylide

250 tolerance to 20 g L(-1) adipic acid (AA), a nylon precursor.

251 Nylon prints from retrophage libraries are used to deter

252 n-polymerizable to polymerizable and the gem-nylon properties ranging from inferior to far superior t

253 Three types of swabs, flocked-nylon, rayon, and polyester, were evaluated by 3 extract

254 made by using giant inserted twist to coil a nylon sewing thread that is helically wrapped with a car

255 er (three majority polyester fleece, and one nylon shell with nonwoven polyester insulation) and one

256 Disappearance of nylon signals indicated a chemical reaction between amin

257 ng of looping and ligating the lipoma with a nylon snare.

258 rgical mask, was reduced by 0.7 log(10) on a nylon/spandex mask, and was unchanged on a polyester mas

259 aving ostensibly indistinguishable densities-Nylon spheres, PMMA spheres, and drug spheres-demonstrat

260 Nylon stitches were used to fixate the fibrin membrane t

261 one on a screen consisting of an "invisible" nylon stocking that provides for low liquid residence ti

262 ference line were immobilized to 75- by 6-mm nylon strips.

263 We used nylon-substrate DNA arrays representing approximately 96

264 This study describes modification of porous nylon substrates with TiO2 nanoparticles to create membr

265 abricated by high-speed robotics on glass or nylon substrates, for which labeled probes are used to d

266 Approximately 40% of the nylon surface is covered by the RGD, which gives a surfa

267 wf) dye loading cannot be identified on dyed nylon surfaces by TOF-SIMS using a Bi(3)(+) primary ion

268 encapsulation device consisting of a twisted nylon surgical thread coated with an islet-seeded algina

269 hree 10-0 nylon sutures (n = 5), or one 10-0 nylon suture (n = 5).

270 ry (LCA) stenosis was created by placing 9-0 nylon suture around the artery using an external 35-gaug

271 Nylon suture coated with K21 at 5%, 10%, 20%, and 25% re

272 rmanent MCAo by insertion of an intraluminal nylon suture coated with poly-L-lysine.

273 Ao by retrograde intraluminal insertion of a nylon suture coated with poly-L-lysine.

274 We tested a modified nylon suture in a rat model of middle cerebral artery oc

275 n insertion of intraluminal 4-0 monofilament nylon suture into internal carotid artery (n=195).

276 re (chromic gut, polyester suture, silk, and nylon suture) and control unwaxed dental floss impregnat

277 o by retrograde insertion of an intraluminal nylon suture, coated with poly-L-lysine, through the ext

278 means of a poly-L-lisine-coated intraluminal nylon suture.

279 artery was transiently occluded using a 4-0 nylon suture.

280 utured into place with a double running 10-0 nylon suture.

281 head) and sutured with a double running 10-0 nylon suture.

282 ulfate-aldehyde adhesive (n = 8), three 10-0 nylon sutures (n = 5), or one 10-0 nylon suture (n = 5).

283 Commercially available 10-0 nylon sutures, fine polyimide tubes, and custom-made fin

284 V was induced in BALB/c mice by placement of nylon sutures.

285 ethylenediamine (HMD) are key precursors for nylon synthesis, which are currently produced primarily

286 tigate peak narrowing in a model transferrin-nylon system under salting out conditions using a combin

287 MNPs released from nylon tea bags at 25 C were fiber-like and had character

288 analyses suggest initial deprotonation of a Nylon terminal amido N-H bond, which covalently binds th

289 study the interaction between droplets and a nylon textile using high-speed imaging.

290 rats were subjected to ABR by ligature with nylon thread in the second upper-left molar, with contra

291 are non-covalently, physically entrapped in nylon, thus highlighting the importance of MOF-polymer h

292 ads and pellets of different formulations of Nylon, to demonstrate the ability of MuPSs to separate m

293 for sustainability for the case of bio-based nylon using both deliberative and analytical approaches

294 ue and black (42.5% and 26.4%) in colour and Nylon was the most prevalent (60%) polymer type.

295 precursor to polyethylene terephthalate and nylon with combined markets of $51 billion, in real time

296 lenic T lymphocytes were isolated by using a nylon wool cell purification protocol.

297 Splenic T cells were enriched by nylon wool column separation.

298 obulin G-coated plates or by purification on nylon wool columns produced more IFN-gamma mRNA than who

299 y depletion of cells adherent to plastic and nylon wool, released gamma interferon (IFN-gamma), but n

300 Furthermore, GLAT inhibited the response of nylon wool-enriched T cells to syngeneic antigen-present

301 ene sulfonate) (PSS) and proteases in porous nylon yields enzymatic membrane reactors for limited pro