ライフサイエンスコーパス: rubber

1 on contact allergens (nickel, fragrance, and rubber).

2 y 13500 Jm(-2) comparable to that of natural rubber.

3 urethane hydrogels and dispersed in silicone rubber.

4 sativa) is also known to synthesize natural rubber.

5 d crystals with the mechanical properties of rubber.

6 the form of wood, fabrics, starch, paper and rubber.

7 sis is the main commercial source of natural rubber.

8 civil engineering applications of tire crumb rubber.

9 y reduced the reservoir of zinc in the crumb rubber.

10 arbon stock changes - including oil palm and rubber.

11 nc leaching during flow through porous crumb rubber.

12 bal importance as the main source of natural rubber.

13 and approximately 10,000 J m(-2) for natural rubbers.

14 e three-dimensional printing inks and filled rubbers.

15 polyamide (39%) and ethylene-propylene-diene rubber (23%) were the most abundant polymers within the

16 gel (poly(vinyl alcohol)), and a processable rubber (a styrene-ethylene-butylene-styrene derivative)

17 n coefficients of PAHs and PCBs for silicone rubber, a material used in Dutch passive sampling monito

18 lude fragrance chemicals, hair dyes, metals, rubber accelerators and preservatives.

19 tropical tree species that produces natural rubber, an essential industrial raw material.

20 By including other rubber and carbon nanotube sheath layers, we demonstrate

21 signed and fabricated implants with silicone rubber and elastic thin-film metallization.

22 re crumb rubber increases with smaller crumb rubber and longer exposure time.

23 cantly differentially expressed between high rubber and low rubber genotypes.

24 that deformation, and in melted plastic and rubber and polyethylene in the vicinity of that drum.

25 oximately equal mass fractions of tire tread rubber and road surface mineral encrustations.

26 foams (66%, identified as styrene-butadiene rubber) and to a lesser extent fibers/lines (29%) with a

27 sizes are greatest for exposure to oil palm, rubber, and non-poultry based livestock farming and for

28 nediamine (6PPD), a globally ubiquitous tire rubber antioxidant.

29 ols) coincided with the reduction of natural rubber as low as 5%.

30 dinary functions including swimming, kicking rubber-balls and even catching a live fish in water.

31 unctions analogous to release of a stretched rubber band (recoil), or in groups of few cells (chains)

32 omprises a low-tech syringe pump driven by a rubber band and connected to a flow restrictor enabling

33 oposed as an efficacious, safe therapy while rubber band ligation (RBL) is a commonly used outpatient

34 l artery ligation compared with conventional rubber band ligation in the treatment of people with sym

35 iterature concerning efficacy and safety of 'rubber band ligation including multiple comparisons with

36 For more severe symptoms treatment such as rubber band ligation may be therapeutic and is a very co

37 tomy (open 11; closed 3; stapled 1), and two rubber band ligation.

38 In addition, when a rubber band tightly secures the sensor to the skin, the

39 oward moving objects (even a moving piece of rubber band) intensively.

40 When stretching a rubber band, for example, the recovery to its equilibriu

41 ral data preprocessed using a combination of rubber-band baseline correction, Savitzky-Golay smoothin

42 pological features of disordered packings of rubber bands in a cylindrical container.

43 y, antifouling activity of a series of these rubber-based coatings (one ionic and two non-ionic) was

44 emonstrated that ionic and non-ionic natural rubber-based coatings inhibit adhesion and growth of mar

45 We compared the spatial congruence of rubber bioclimatic suitability with extinction vulnerabi

46 rometry indicated a significant reduction in rubber biosynthesis and a corresponding 50% increase in

47 iption factors, kinases, enzymes involved in rubber biosynthesis and disease resistance proteins that

48 is-prenyltransferase is required for natural rubber biosynthesis in lettuce.

49 asmic reticulum and is necessary for natural rubber biosynthesis in planta, but yeast-expressed CPTL2

50 Two protein families required for rubber biosynthesis in Taraxacum brevicorniculatum have

51 that TbREF is an important component of the rubber biosynthesis machinery in T. brevicorniculatum, a

52 ale expansion of genes associated with whole rubber biosynthesis processes, such as basal metabolic p

53 ologous to 49 out of 50 known plant putative rubber biosynthesis related genes.

54 highly homologous to 49 publically-searched rubber biosynthesis related genes.

55 abundant proteins on rubber particles, where rubber biosynthesis takes place.

56 laticifer-specific isoforms seem crucial for rubber biosynthesis.

57 onstration of latex-specific CPT activity in rubber biosynthesis.

58 f rubber tree, some of which are involved in rubber biosynthesis.

59 ation devices for pressure sensor arrays use rubber bladders which are viscous.

60 describe cis mutations in TEK/Tie-2 in blue rubber bleb nevus and sporadic vascular malformations.

61 Blue rubber bleb nevus syndrome (Bean syndrome) is a rare, se

62 ding TIE2, in 15 of 17 individuals with blue rubber bleb nevus syndrome.

63 T1105N-T1106P is recurrent in blue rubber bleb nevus, whereas Y897C-R915C is recurrent in s

64 ximately 72%, when tested using polyurethane rubber block.

65 discriminating two variants of test-object: rubber blocks and spring cells, which emphasized cutaneo

66 cement and additional wear resistance to the rubber, but it in turn introduces non-linear mechanical

67 ly from neryl pyrophosphate (C10) to natural rubber (C>10,000).

68 s demonstrate that the vulcanizing system of rubber can be quantified under ambient conditions with L

69 The rubber capsules exhibit a reversible change in the diffr

70 Natural rubber (cis-1,4-polyisoprene) is an indispensable biopol

71 n atoms of its cosubstrate dioxygen into the rubber cleavage product ODTD, and we show that RoxA is i

72 to 1 hour, glass and plastic to 3 hours, and rubber, cloth, and cracker to 6 hours.

73 in areas such as synthetic plastics, fibers, rubbers, coatings, and composites.

74 ers the entire head of the patient and has a rubber collar neck seal.

75 light filters, are widely used in plastics, rubbers, colorants, and coatings to increase the perform

76 common allergens (ie, nickel, fragrance, and rubber) compared with petrolatum-occluded skin, using RT

77 ed plants generated by RNA interference, the rubber content was significantly reduced, correlating wi

78 rising a buckled carbon nanotube sheath on a rubber core, are fabricated, characterized, and deployed

79 prising buckled carbon nanotube sheaths on a rubber core, can be used as glucose sensors, supercapaci

80 esis of short cis-polyisoprenes, but natural rubber could not be synthesized in vitro.

81 Artificial athletic turf containing crumb rubber (CR) from shredded tires is a growing environment

82 The properties of natural and synthetic rubber critically depend on the concentration of the vul

83 ica, Asia, and New Guinea, where large-scale rubber cultivation is viable, and simulated rubber expan

84 fluenced by clinician choice (e.g., 0.36 for rubber dam use).

85 Projected rubber demand could be met by allowing expansion primari

86 ctares of further clearance are predicted as rubber demand rises, which will have major consequences

87 Fragrance, and to a lesser extent rubber, demonstrated a strong TH2 bias, some TH22 polari

88 d to prevent severe biodiversity losses from rubber development.

89 Contaminated rubber diaphragms of blood culture bottles were identifi

90 on the swelling kinetics is modeled via Doi rubber elasticity theory.

91 icture of soft material mechanics is that of rubber elasticity, in which material modulus is related

92 Unique properties (e.g., rubber elasticity, viscoelasticity, folding, reptation)

93 ed a protein designated T. brevicorniculatum rubber elongation factor (TbREF) by using mass spectrome

94 Moreover, FPS and rubber elongation factor/small rubber particle protein g

95 A striking expansion of the REF/SRPP (rubber elongation factor/small rubber particle protein)

96 e sensor was fabricated from electrospun NBR rubber, embedded with poly(3,4-ethylenedioxythiophene) (

97 us, antioxidant-loaded halloysite doped into rubber enhances anti-aging properties for at least 12 mo

98 dity of one ethylene propylene diene monomer rubber (EPDM) or thermoplastic elastomer (TPE) eluates,

99 rubber cultivation is viable, and simulated rubber expansion under different scenarios.

100 A key question is how to reconcile rubber expansion with biodiversity conservation.

101 oriented in the fiber direction on stretched rubber fiber cores.

102 ist and coiling produces supercoiled natural rubber fibers and coiled fishing line fibers that cool w

103 Rubber-filler composites are a key component in the manu

104 osothiol (RSNO) type NO donor doped silicone rubber films using feedback-controlled photolysis.

105 Rubber/fragrance showed similar trends of lesser magnitu

106 ective study at the Medecins Sans Frontieres Rubber Garden Diphtheria Treatment Center from December

107 tially expressed between high rubber and low rubber genotypes.

108 causative chemicals responsible for nitrile rubber glove-induced allergic contact dermatitis have no

109 ted positive patch test reactions to nitrile rubber gloves as is, as well as to the dithiocarbamate m

110 We propose that nitrile rubber gloves should be produced without using vulcaniza

111 ization process, were present in the nitrile rubber gloves the patient used at her workplace, as was

112 due to the EITC and BITC present in nitrile rubber gloves, and considered that alkyl isothiocyanate

113 n end-of-life car tires that are recycled to rubber granulates used on artificial soccer fields, and

114 1.5 to 67 mug/g in car tires, 13-67 mug/g in rubber granulates, and 16-74 mug/g in playground tiles.

115 re detected for the first time in car tires, rubber granulates, and playground tiles.

116 s in their unseen hand, while they watched a rubber hand been touched synchronously with the same fab

117 ongruent' one, in which participants saw the rubber hand being touched with a fabric of incongruent r

118 er, perceptual body illusions - famously the rubber hand illusion (RHI) - can be elicited experimenta

119 The rubber hand illusion (RHI) demonstrates that under some

120 ' hand ownership sensation as induced by the Rubber Hand Illusion (RHI) with dark rubber hands.

121 During the rubber hand illusion (RHI), subjects experience an artif

122 ory mechanisms in body representation is the Rubber Hand Illusion (RHI).

123 We propose that S1 and M1 contribute to the rubber hand illusion and that, by taking advantage of pl

124 hange in mirror-sensory synaesthesia and the rubber hand illusion comparable to relationships between

125 For instance, subjects experiencing a rubber hand illusion develop a sense of ownership of a m

126 Human experiments on the rubber hand illusion implicate similar regions, but sinc

127 tent with this prediction, we found that the Rubber Hand Illusion is stronger in CD patients as compa

128 earch in adults using paradigms such as the "rubber hand illusion" and "enfacement" [1-11].

129 used multisensory integration paradigm, the Rubber Hand Illusion, to investigate the role of affecti

130 Relying on the rubber hand illusion, we manipulated hand ownership, so

131 Relying on the somatic rubber hand illusion, we manipulated hand ownership, suc

132 To address this issue, we combined the rubber hand illusion, which allows experimental manipula

133 e hidden real and visible rubber hand in the rubber hand illusion.

134 ctile tapping on the hidden real and visible rubber hand in the rubber hand illusion.

135 d ownership, so that participants embodied a rubber hand placed next to their own hand.

136 ownership, such that participants embodied a rubber hand placed next to their own hand.

137 ty along the dorsal visual pathways when the rubber hand was embodied.

138 pant's hand drifted laterally, only when the rubber hand was embodied.

139 ortex in synchrony with touches applied to a rubber hand.

140 by the Rubber Hand Illusion (RHI) with dark rubber hands.

141 South American leaf blight (SALB) of rubber has been the main constraint to production in its

142 Tropical forests are being replaced by rubber (Hevea brasiliensis) plantations, causing widespr

143 conversion to oil palm (Elaeis guineensis), rubber (Hevea brasiliensis), and cacao (Theobroma cacao)

144 mple, non-tacky adhesives consist of natural rubber impregnated into stiff natural fiber fabrics, inc

145 rge rubber particles that account for 93% of rubber in the latex (despite constituting only 6% of tot

146 roduce large amounts of high-quality natural rubber in their latex, the milky cytoplasm of specialize

147 not synthesize high molecular weight natural rubber in vitro.

148 indicate that zinc leaching from tire crumb rubber increases with smaller crumb rubber and longer ex

149 g-have a key role in the modern plastics and rubber industries, comprising about 20 per cent of polym

150 ction in the Palaeotropics--and, thus to the rubber industry and to the global economy--its phylogeny

151 ong collaboration between the health sector, rubber industry, and local communities.

152 than oil palm in the region, indicating that rubber is the region's preferred crop.

153 Although a major source of natural rubber is the rubber tree (Hevea brasiliensis), lettuce

154 ombinant Hevea brasiliensis (rHev b) natural rubber latex (NRL) allergen components have been develop

155 7 farmers and 33 subjects exposed to natural rubber latex (NRL), all with work-related allergic sympt

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

157 ologies are beta-lactam antibiotics, natural rubber latex, and other agents used in medical and perio

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

159 Pillars with diameters below 2.3 mum exhibit rubber-like behaviour and sustain a compressive strain o

160 In contrast to rubber-like biopolymers, the retractive elastic force in

161 important subset of these materials exhibit rubber-like elasticity, combining the optical properties

162 ranging from reversible protein unfolding to rubber-like elasticity.

163 modular elements within mammalian elastin, a rubber-like elastomeric protein that interfaces with col

164 as used for printing calcific regions, and a rubber-like material was used for soft tissue structures

165 This demonstrates the potential of the rubber-like multivalent RNA nanoparticles to conquest th

166 provide a combination of both cork-like and rubber-like properties.

167 tly, we found that RNA nanoparticles display rubber-like property that can rapidly deliver therapeuti

168 liver cancer cells efficiently due to their rubber-like property to enhance their EPR as well as the

169 nd jumping systems of insects as a polymeric rubber-like protein with outstanding elasticity.

170 acteristic ensemble of conformations in this rubber-like protein.

171 These microstructures contribute to the rubber-like quasi-static and cyclic mechanical propertie

172 The rubber-like RNA nanoparticles allow for enhanced targeti

173 A millimeter thin rubber-like solid-state lighting module is reported.

174 mixture changes from a powder to a cohesive rubber-like state, and this results in the observed reac

175 described within the framework of entropic (rubber-like) elasticity.

176 ous suction at -50 mm Hg via a 7-cm diameter rubber-lined suction-cup device.

177 s and related species such as Ceara or India rubber (M. glaziovii), and genotype 268 African cassava

178 However, PDMS, a silicone rubber material, is very hydrophobic and tends to exhibi

179 S and ZnO are quantified in three different rubber materials prepared from the most important polyme

180 etween the filler particles, mediated by the rubber matrix.

181 The rubber model, however, largely ignores the role of valen

182 ncrystalline domains that resemble classical rubber networks.

183 percoiled fibers, including those of natural rubber, nickel titanium, and polyethylene fishing line.

184 is a potential alternative crop for natural rubber (NR) production, due to its high molecular weight

185 achieved by laminating a pressure sensitive rubber onto the SWCNT-TFT AM.

186 soft and can be deformed in a similar way as rubber or plastic, this perception is changing, and both

187 Rubber oxygenase A (RoxA) is one of only two known enzym

188 T. brevicorniculatum, and may play a role in rubber particle biogenesis and influence rubber producti

189 over, FPS and rubber elongation factor/small rubber particle protein gene families were expanded inde

190 the REF/SRPP (rubber elongation factor/small rubber particle protein) gene family and its divergence

191 We propose that small rubber particle protein-like proteins are involved in th

192 is-prenyltransferases (TbCPTs) and the small rubber particle proteins (TbSRPPs).

193 similar to each other and also to the small rubber particle proteins that accumulate in rubber-produ

194 TbREF) by using mass spectrometry to analyze rubber particle proteins.

195 CPTL2, identified from the lettuce rubber particle proteome, displays homology to a human N

196 abundance of TbSRPPs, which are required for rubber particle stability.

197 and the protein itself was localized on the rubber particle surface.

198 ly isolated CPTs known to be associated with rubber particles (TbCPT1 to -3) was heavily depleted by

199 f poly(cis-1,4-isoprene) and is deposited in rubber particles by particle-bound enzymes that carry ou

200 The colloidal stability of rubber particles isolated from TbREF-silenced plants was

201 CPT-RNAi plants contained fewer and smaller rubber particles than wild-type laticifers.

202 F1, which is located on the surface of large rubber particles that account for 93% of rubber in the l

203 latex (despite constituting only 6% of total rubber particles, large and small).

204 ed on locally-resonant sub-wavelength porous rubber particles, through selection of particle size and

205 re shown to be the most abundant proteins on rubber particles, where rubber biosynthesis takes place.

206 s to study the suitability of using silicone rubber passive samplers and caged organisms (Ruditapes p

207 Overall, silicone rubber passive samplers proved to be more sensitive than

208 HOCs in water were determined using silicone rubber passive samplers.

209 verall it appears that forest replacement by rubber plantation results in an overall loss and extensi

210 ity were significantly higher in forest than rubber plantation.

211 annelids were significantly more abundant in rubber plantation.

212 ed tropical rainforest fragments and derived rubber plantations at a network of sites in Xishuangbann

213 nd Southeast Asia and sub-Saharan Africa for rubber plantations between 2003 and 2017 [1, 2].

214 Our results show that rubber plantations cover much larger areas than oil palm

215 palm plantations and the other major crop - rubber plantations in southern Myanmar, and compared the

216 agroforestry plantations and 0.8 +/- 0.3 for rubber plantations in the humid tropics; and (ii) land u

217 The close proximity of rubber plantations to natural forest also increases the

218 t Asia (SEA) has encouraged the expansion of rubber plantations.

219 re the optical emission of S and Zn from the rubber plasma in air.

220 el quantitative pyrolysis-GC/MS analysis for rubber polymer, we detected TRWP in 97% of the 149 sedim

221 The printed rubber possesses even higher toughness (Gamma ~ 155 kJ m

222 This is particularly relevant to the rubber-producing laticiferous system, where this isoform

223 rubber particle proteins that accumulate in rubber-producing plants.

224 ical elements could be analyzed also and the rubber production could be controlled employing this mul

225 nd the ever-menacing threat that it poses to rubber production in the Palaeotropics--and, thus to the

226 gstanding mystery of ethylene stimulation in rubber production.

227 in rubber particle biogenesis and influence rubber production.

228 oving plant biotic and abiotic tolerance and rubber production.

229 o measure the elements in-line of industrial rubber production.

230 red from the most important polymers used in rubber production.

231 h this study exclusively focused on silicone rubber, qualitatively the results will also apply to oth

232 Washing crumb rubber reduces this initial pulse but does not change th

233 ding putative exonic markers associated with rubber related gene homologues and differentially expres

234 foundation for further genetic dissection of rubber related traits, comparative genomics and marker-a

235 toxicological relevance for dissipated tire rubber residues.

236 We found that a rubber right hand pressing on the left index finger prod

237 ts simultaneously experienced ownership of a rubber right hand that was placed at a distance from the

238 ain constituents of tires, styrene butadiene rubber (SBR) and polyisoprene (IR), has been investigate

239 impact on the pyrolysis of styrene butadiene rubber (SBR) was investigated using thermogravimetric an

240 p tires (main constituent, styrene butadiene rubber, SBR), which might be harmful to the environment.

241 g different slow-release dispensers, a small rubber septum impregnated with the chemical was as effec

242 ignificantly impact the contamination of the rubber septum of the aflibercept vial.

243 ablate material from the surface of produced rubber sheets and to measure the optical emission of S a

244 ed dielectric elastomer layer, creating thin rubber sheets that change illuminance and capacitance un

245 of individually controllable pixels in thin rubber sheets were fabricated using replica molding and

246 ow steel cylinders coated with thin silicone rubber shells.

247 production, due to its high molecular weight rubber, short breeding cycle, and diverse environmental

248 accurate way of modelling styrene-butadiene rubber-silica composite formation.

249 ions, and do not address the effect of crumb rubber size or the dynamics of zinc leaching during flow

250 ndertaken to investigate the effect of crumb rubber size using the synthetic precipitation leaching p

251 polymer films, metal foils, paper sheets or rubber slabs.

252 oral responses to the presentation of a fake rubber snake, fake spider, and neutral stimuli.

253 e, motor vehicle-related jobs, painting, and rubber solvents.

254 rries great potential as alternative natural rubber source.

255 ased infinite sink extractions with silicone rubber (SR) as the extractor phase demonstrated a simila

256 ized poly(vinyl chloride) (PVC) and silicone rubber (SR) based calcium-selective membranes which are

257 An outer layer of pure silicone rubber (SR), i.e. SR without any plasticizer, ionophore,

258 tractive" stamping process in which silicone rubber stamps, activated by oxygen plasma, selectively r

259 ehavior using physical models of prestrained rubber strips, geometric arguments, and mathematical mod

260 etroleum and Coal Products, and Plastics and Rubber subsectors are at the greatest risk of physical w

261 We found no "win-win" areas with highest rubber suitability and lowest extinction vulnerability.

262 st endangered species while maintaining high rubber suitability.

263 conducting choledochocholedochostomy with a rubber T-tube during liver transplantation in risky anas

264 ucted in two phases in a homogenous group of rubber tappers living and working in a remote area of th

265 Questionnaire data (Phase 1) revealed that rubber tappers with availability of electric light had s

266 r tree, Hevea brasiliensis, produces natural rubber that serves as an essential industrial raw materi

267 stereotaxic impact device with a custom-made rubber tip-fitted impactor.

268 The combustion of foam boxes, rubber tires, and plastic bottles/bags in the flaming ph

269 21,036 SNPs were different in high and low rubber TK genotypes.

270 y of applications ranging from nanocomposite rubbers to organic-inorganic hybrid solar cells.

271 n suggests that the chain-elongating enzyme (rubber transferase; EC 2.5.1.20) is a cis-prenyltransfer

272 The Para rubber tree (Hevea brasiliensis) is an economically impo

273 White root rot disease is threatening rubber tree (Hevea brasiliensis) plantations throughout

274 ough a major source of natural rubber is the rubber tree (Hevea brasiliensis), lettuce (Lactuca sativ

275 In contrast to the rubber tree (Hevea brasiliensis), which produces cis-pol

276 resent a high-quality reference genome for a rubber tree cultivar GT1 using single-molecule real-time

277 expansion by ~65.88% (~970 Mbp) of the whole rubber tree genome since the divergence from Manihot.

278 ploidy in cassava is shared with the related rubber tree Hevea, providing a resource for comparative

279 reported first genome sequence of a tropical rubber tree pathogen R. microporus should contribute to

280 assembly represents key resources for future rubber tree research and breeding, providing novel targe

281 The characterization of HbXIP2;1 during rubber tree tapping lends new insights into molecular an

282 The rubber tree, Hevea brasiliensis, produces natural rubber

283 Eucommia ulmoides, also called hardy rubber tree, is an economically important tree; however,

284 a relatively short domestication history of rubber tree, some of which are involved in rubber biosyn

285 mic diversity in the cultivated but not wild rubber trees despite a relatively short domestication hi

286 ic variation between the cultivated and wild rubber trees was obtained, which contains ~15.7 million

287 his pump accepts commonly available silicone rubber tubing in a range of sizes from 1.5 to 3 mm, and

288 one oil in commercial medical grade silicone rubber tubing through a solvent swelling process.

289 coke, biochar, carbon black, discarded food, rubber tyres and mixed plastic waste-can afford gram-sca

290 chemically analyze the vulcanizing system in rubber under ambient conditions, and we demonstrate a no

291 ported including pharmaceutical metabolites, rubber vulcanization accelerators, plasticizers, and fla

292 2-Mercaptobenzothiazole (MBT) is a tire rubber vulcanizer found in potential sources of reclaime

293 However, the molecular mass of the rubber was not affected by TbREF silencing.

294 he obtained data, location-specific silicone rubber-water partition coefficients (Ksr-w; adjusted for

295 at the same time, they function as enthalpic rubbers, which can recover up to 98% compression in air

296 ultaneously meeting global future demand for rubber with conservation of extinction-threatened amphib

297 r solution was impregnated into heat-treated rubber wood to enhance its mechanical and flame-retardin

298 vector control and access to health care for rubber workers.

299 However, improvements in rubber yield and agronomically relevant traits are still

300 ol of roots from genotypes with high and low rubber yield.